Electricity Maps
A collection of parsers to collect and standardize electricity data such as production, exchanges and price from across the globe.
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The Adelaide Desalination plant (ADP), formerly known as the Port Stanvac Desalination Plant, is a sea water reverse osmosis desalination plant located in Lonsdale, South Australia which has the capacity to provide the city of Adelaide with up to 50% of its drinking water needs.
", "units": [ { "code": "ADPBA1L", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 7.76, "data_first_seen": "2021-05-18T09:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "LOAD" }, { "code": "ADPPV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 24.75, "data_first_seen": "2021-05-18T13:10:00+10:00", "data_last_seen": "2025-07-21T17:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ADPBA1G", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 7.76, "data_first_seen": "2021-05-18T10:55:00+10:00", "data_last_seen": "2025-07-21T20:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ADPPV2", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 0.2, "dispatch_type": "GENERATOR" }, { "code": "ADPPV3", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 0.02, "dispatch_type": "GENERATOR" } ] }, { "code": "ALBANY", "name": "Albany", "network_id": "WEM", "network_region": "WEM", "description": "Albany wind and Grasmere farms are two wind power stations near Albany, Western Australia, owned by Bright Energy Investments. They are adjacent and are often considered a single facility. They have 18 wind turbines, with a maximum generating capacity of 35.4 MW of electricity. The original Albany Wind Farm was commissioned in October 2001, after ten years of planning. The wind farm has the capacity to produce 80 per cent of the electricity requirements of Albany.Originally commissioned in 2001 the farm was the largest of its kind in Australia.
The farm originally had 12 wind turbines, with 6 extra turbines installed in 2011 as the Grasmere Wind Farm. The original Albany Wind Farm turbines are ENERCON model E66, each with three 35 metres (115 ft) long blades made from fibreglass and kevlar (making them very flexible in order to withstand any conditions) and are fitted to 65 metres (213 ft) towers. The nose cone which the blades attach to weighs around 14 tonnes. At the time of construction these turbines were the largest installed in the southern hemisphere. The turbines operate automatically, with the three blades adjusted to make best use of power output from any wind direction or strength. They have been designed to withstand the strongest winds likely in Albany and incorporate special lightning protection. Each turbine has a rating of 1.8 MW and is able to produce electrical energy at wind speeds of 7\u2013130 kilometres per hour (4\u201370 kn) at which the turbines are shut down. Maximum output is achieved at a wind speed of 50 kilometres per hour (27 kn). The 6 new turbines installed in 2011 are ENERCON model E70 with a rating of 2.3 MW. The turbines were made in Germany.
The Albany and Grasmere wind farms are situated on the coast about 12 kilometres (7 mi) south-west of the city. They are in an elevated position at approximately 80 metres (262 ft) above the Southern Ocean. The height and locality is designed to maximise exploitation of local wind conditions, and combined with the short distance to the main electricity transmission system make this an outstanding wind farm site.The farms also acts as a tourist attraction in Albany. When built A$200,000 was spent on board walks, viewing towers, interpretive displays and picnic areas on and around the site. The road to the site underwent a A$400,000 upgrade for better access for visitors. The Bibbulmun Track also traverses the site and had to be re-aligned toward the cliffs and stabilized.
The Aldoga Solar Farm will be approximately 380MW. This solar photovoltaic (PV) facility is located approximately 20 km north-west of Gladstone on the central Queensland coast.
The Aldoga Solar Farm will deliver a flagship renewable energy project on Economic Development Queensland (EDQ) land as part of the Queensland Government\u2019s 'Advancing our cities and regions strategy\u2019, which aims to renew and repurpose underutilised state land to generate jobs and drive economic growth.
", "units": [ { "code": "0ALDOGA", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 387.0, "dispatch_type": "GENERATOR" } ] }, { "code": "ALDGASF", "name": "Aldoga", "network_id": "NEM", "network_region": "QLD1", "description": "The Aldoga Solar Farm will be approximately 380MW. This solar photovoltaic (PV) facility is located approximately 20 km north-west of Gladstone on the central Queensland coast.
The Aldoga Solar Farm will deliver a flagship renewable energy project on Economic Development Queensland (EDQ) land as part of the Queensland Government\u2019s 'Advancing our cities and regions strategy\u2019, which aims to renew and repurpose underutilised state land to generate jobs and drive economic growth.
", "units": [ { "code": "ALDGASF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 535.21, "data_first_seen": "2025-03-21T15:05:00+08:00", "data_last_seen": "2025-07-21T17:35:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "AMCORGR", "name": "Amcor Glass", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "AMCORGR", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 4.0, "emissions_factor_co2": 0.9, "dispatch_type": "GENERATOR" } ] }, { "code": "ANGASTON", "name": "Angaston", "network_id": "NEM", "network_region": "SA1", "description": "Angaston Power Station is a diesel-powered electricity generator in the Barossa Valley region of South Australia near the town of Angaston. It is owned and operated by Snowy Hydro since 2014. It consists of 30 diesel reciprocating engines generating up to 50 MW of electricity to meet peak demands in the National Electricity Market.The power station was designed and built by Cummins Power Generation under contract from Infratil in 2005. At the time, it was Australia's largest and lowest-emission diesel power station. It achieves the low emissions through selective catalytic reduction technology, spraying urea into the exhaust.Snowy Hydro bought assets from Infratil in 2014. These included Lumo Energy, Direct Connect and three diesel peaking generators for a total of 136 MW. The other two were Lonsdale Power Station and Port Stanvac Power Station.
", "units": [ { "code": "ANGAS2", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 20.0, "emissions_factor_co2": 1.0136, "data_first_seen": "2005-01-06T11:10:00+10:00", "data_last_seen": "2016-05-23T09:05:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ANGAST1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 0.6606, "data_first_seen": "2016-05-27T12:10:00+10:00", "data_last_seen": "2025-07-09T21:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ANGAS1", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.0136, "data_first_seen": "2005-01-06T11:10:00+10:00", "data_last_seen": "2016-05-23T09:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "APS", "name": "Anglesea", "network_id": "NEM", "network_region": "VIC1", "description": "The Anglesea Power Station was a brown coal\u2013powered thermal power station located at Anglesea, in Victoria, Australia. The station had one steam turbine, with a capacity of 150 megawatts. It was operated by Alcoa of Australia and supplied almost 40% of the electricity used by the company's Point Henry aluminium smelter, until the smelter's closure in August 2014.
", "units": [ { "code": "APS", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 165.0, "emissions_factor_co2": 1.2286, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2015-08-21T21:45:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "APPIN", "name": "Appin", "network_id": "NEM", "network_region": "NSW1", "description": "In a world first, EDL developed the largest WCMG power station at Appin that captured drained WCMG and also directly used a portion of the methane present as combustion air in the generator sets, further reducing the mine\u2019s greenhouse gas (GHG) emissions.
", "units": [ { "code": "APPIN", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 55.6, "emissions_factor_co2": 0.8126, "dispatch_type": "GENERATOR" } ] }, { "code": "ARWF", "name": "Ararat", "network_id": "NEM", "network_region": "VIC1", "description": "Ararat Wind Farm is wind farm in western Victoria, Australia. It was officially opened on 27 June 2017 and was the third-largest wind farm in Australia at that time, with capacity to generate 240MW from 75 turbines.Of the 75 turbines, 70 are in the Rural City of Ararat and five are in the Shire of Northern Grampians.
", "units": [ { "code": "ARWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 241.59, "data_first_seen": "2016-08-19T10:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "AVLSF", "name": "Avonlie", "network_id": "NEM", "network_region": "NSW1", "description": "The Avonlie Solar Farm will be a large-scale solar farm in Narrandera, New South Wales. The project will comprise more than 450,000 solar panels with a total energy capacity of up to roughly 245MW(DC).
", "units": [ { "code": "AVLSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 254.1, "data_first_seen": "2023-03-28T14:25:00+08:00", "data_last_seen": "2025-07-21T17:10:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "AWABAREF", "name": "Awaba", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "AWABAREF", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.0741, "dispatch_type": "GENERATOR" } ] }, { "code": "BADGINGARRA", "name": "Badgingarra", "network_id": "WEM", "network_region": "WEM", "description": "The Badgingarra Wind Farm (BWF) is located just to the north of APA\u2019s 80-megawatt Emu Downs Wind Farm and the 20-megawatt Emu Downs Solar Farm. BWF consists of 37 Siemens 3.6-megawatt wind turbine generators installed with a hub height of 85 metres and tip height of 150 metres.
BWF generates 130 megawatts of power into the Western Power electricity grid, creating a 230-megawatt renewable energy precinct near Cervantes, approximately 180 kilometres north of Perth, Western Australia.
The $315 million APA development is underpinned by an agreement with Alinta Energy for the purchase of all the energy and Large Scale Renewable Generation Certificates generated by the wind farm through to December 2035.
", "units": [ { "code": "BADGINGARRA_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 130.0, "data_first_seen": "2019-01-14T14:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DEIBDL", "name": "Bairnsdale", "network_id": "NEM", "network_region": "VIC1", "description": "Bairnsdale Power Station is a 94 megawatts (126,000 hp) natural gas-fired power station in Victoria\u2019s East Gippsland region, owned and operated by Alinta Energy. It is a fast start, peaking power station dispatching into the National Electricity Market. Bairnsdale Power Station is connected to the AusNet Services distribution network grid.
The station was commissioned in 2001. It has two GE LM6000PD gas turbines.
The Impact Investment Group\u2019s Chinchilla Solar Farm is located approximately 7 km northwest of Chinchilla in the Western Downs shire of southeast Queensland. Located on 73 ha of land it has approximately 61,000 panels mounted on a single axis tracking system.
", "units": [ { "code": "BAKING1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 17.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BHWF", "name": "Bald Hills", "network_id": "NEM", "network_region": "VIC1", "description": "The Bald Hills Wind Farm is an operating wind farm located approximately 10 km south east of Tarwin Lower in South Gippsland, Victoria, Australia. The Bald Hills Wind Farm site covers approximately 1,750ha of largely cleared cattle and sheep grazing farmland. The turbines are located in three distinct areas, one to the west and one to the east of Tarwin Lower Waratah Road, and one near the end of Bald Hills Road.
", "units": [ { "code": "BALDHWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 106.6, "data_first_seen": "2015-02-24T08:45:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BALBESS", "name": "Ballarat", "network_id": "NEM", "network_region": "VIC1", "description": "Ballarat Energy Storage System (BESS) is a grid-connected energy storage system connected to the Ballarat Area Terminal Substation in Warrenheip, a suburb pf Ballarat in Victoria. It was commissioned in 2018 and provides 30 MWh of storage capacity at 30 MW. The battery was developed by NuvoGroup (owned by Spotless). Fluence provided the batteries, AusNet Services owns the facility, which is operated by EnergyAustralia. Funding was provided by AusNet Services and Australian Renewable Energy Agency (ARENA).The system consists of nine units each of which contains Lithium-ion batteries along with cooling and safety systems.
", "units": [ { "code": "BALBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 30.0, "data_first_seen": "2018-11-07T11:10:00+10:00", "data_last_seen": "2025-07-21T16:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BALBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 30.0, "data_first_seen": "2018-11-07T10:55:00+10:00", "data_last_seen": "2025-07-21T19:45:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "BBASEHOS", "name": "Ballarat Hospital", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "BBASEHOS", "fueltech_id": "gas_recip", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.812, "dispatch_type": "GENERATOR" } ] }, { "code": "BANGOWF", "name": "Bango", "network_id": "NEM", "network_region": "NSW1", "description": "Bango Wind Farm is a development of 46 wind turbines and associated infrastructure on agricultural land approximately 30 km north of Yass, NSW. The site is well suited to wind generation due to its reliable wind resource, low density of rural residential dwellings and proximity to existing transmission infrastructure.
", "units": [ { "code": "BANGOWF2", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 84.8, "data_first_seen": "2021-06-10T16:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BANGOWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 159.0, "data_first_seen": "2021-01-14T12:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BAPS", "name": "Banimboola", "network_id": "NEM", "network_region": "VIC1", "description": "Banimboola Power Station is a hydroelectric power station on the Dartmouth Dam Regulating Pond (or Banimboola Pondage), downstream of Dartmouth Dam on the Mitta Mitta River in Victoria, Australia. Banimboola has three turbo generators, with a generating capacity of 12.2 megawatts (16,360 hp) of electricity. It is owned and operated by AGL Energy.
", "units": [ { "code": "BAPS", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 12.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BANKSPT", "name": "Bankstown Sports Club", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "BANKSPT1", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 1.0, "emissions_factor_co2": 0.9, "dispatch_type": "GENERATOR" } ] }, { "code": "BANNSP", "name": "Bannerton", "network_id": "NEM", "network_region": "VIC1", "description": "The Bannerton Solar Park is a solar power station in the locality of Bannerton southeast of Robinvale in the Sunraysia district of Victoria. It generates up to 88MW of electricity to the National Electricity Market (NEM).
Bannerton Solar Park is the second solar farm to be funded by the Clean Energy Finance Corporation (after the Gannawarra Solar Farm). It uses 320,000 solar panels to generate 110MWDC/88MWAC of electricity. It has offtake agreements with Alinta Energy and Yarra Trams.CIMIC Group company UGL Limited designed and built the solar farm, including single axis tracking system, substation and connection to the Powercor Australia grid. It is built on land unsuitable for Almond orchards.Bannerton is near the edge of the Victorian electricity grid. The Solar Farm exports electricity at 66kV into the distribution network to support the local grid in responding to the load imposed from irrigation in summer.
The Barcaldine Power Station is a combined-cycle power station in Barcaldine, Queensland. Its NEMMCO registered capacity as of January 2009 was 55 MW.
According to the Geoscience Australia database, it is also known as the Len Wishaw power station and consists of a 38 MW gas turbine and a 15MW steam turbine. The steam turbine at the power station is to be taken offline.The power station was built by Energy Equity Corporation, with the gas turbine being completed in 1995 and the steam turbine added in 1999. The station had originally been planned for Blackall. Enertrade acquired the station and associated gas pipeline in June 2003. With the dissolution of Enertrade in May 2007, the station and pipeline were acquired by Ergon Energy Queensland Pty Ltd.
The Barcaldine Solar Farm is a solar farm located five kilometres east of the town of Barcaldine in Central Queensland, Australia. The power station is owned by Elecnor and is situated on a 90 hectare site. It will use single-axis tracking technology. The power station can generate 20 megawatts AC. It consists of 78,000 panels.
Power was supplied to the grid in December 2016. It was Queensland's first large scale solar farm.
Barker Inlet Power Station is a power station in South Australia. It was announced on 7 June 2017 by AGL Energy to replace part of its ageing Torrens Island Power Station and was built alongside the existing station on Torrens Island in the northwestern suburbs of Adelaide. The power station was commissioned on 4 November 2019.
", "units": [ { "code": "BARKIPS1", "fueltech_id": "gas_recip", "status_id": "operating", "capacity_registered": 211.0, "emissions_factor_co2": 0.5897, "data_first_seen": "2019-10-15T17:55:00+10:00", "data_last_seen": "2025-07-20T22:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BARRON", "name": "Barron Gorge", "network_id": "NEM", "network_region": "QLD1", "description": "The Barron Gorge Hydroelectric Power Station (or Barron Gorge Hydro) in Queensland, Australia is an electricity power station commissioned in 1963 with a maximum capacity of 66 megawatts (89,000 hp). It is located in the locality of Barron Gorge in the Wet Tropics World Heritage Area 20 kilometres (12 mi) north-west of Cairns. It replaced an earlier station which was the first underground power station in the country and the first hydroelectric station in Queensland. The power station was refurbished in 2006.
", "units": [ { "code": "BARRON-2", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 30.0, "data_first_seen": "1998-12-08T11:15:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BARRON-1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 30.0, "data_first_seen": "1998-12-22T09:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BASTYAN", "name": "Bastyan", "network_id": "NEM", "network_region": "TAS1", "description": "The Bastyan Power Station is a conventional hydroelectric power station located in Western Tasmania, Australia.
", "units": [ { "code": "BASTYAN", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 79.9, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BAYSW", "name": "Bayswater", "network_id": "NEM", "network_region": "NSW1", "description": "Bayswater Power Station is a bituminous (black) coal-powered thermal power station with four 660 megawatts (890,000 hp) Tokyo Shibaura Electric (Japan) steam driven turbo alternators for a combined capacity of 2,640 megawatts (3,540,000 hp). Commissioned between 1985 and 1986, the station is located 16 kilometres (10 mi) from Muswellbrook, and 28 km (17 mi) from Singleton in the Hunter Region of New South Wales, Australia.
Prior to September 2014 Bayswater Power Station was part of NSW Government power producer, Macquarie Generation. Macquarie Generation was acquired by AGL Energy in September 2014.
The Bell Bay Power Station was a power station located in Bell Bay, on the Tamar River, Tasmania, Australia, adjacent to the Tamar Valley Power Station, with which it was often confused. It was commissioned between 1971 and 1974 as an oil fired thermal power station, and was converted to natural gas in 2003, after the commissioning of the Tasmanian Gas Pipeline, a submarine gas pipeline which transports natural gas from Longford, Victoria, under Bass Strait, to Bell Bay, Tasmania. As the power station's primary role was to provide system security in the event of drought for Tasmania's predominantly hydro-electric based generation system it only was rarely called on to operate, resulting in intervals of five to eight years between periods of significant use. After the commissioning of Basslink in 2006, the power station was decommissioned in 2009.
At the time of decommissioning, it had two 120 megawatts (160,000 hp) gas fired steam turbines and three 35 megawatts (47,000 hp) gas turbines, giving a total capacity of 345 megawatts (463,000 hp) of electricity. After the Bell Bay Power Station was decommissioned, the three smaller units became part of the Tamar Valley Power Station.
Tamar Valley Power Station is a $230 million natural gas-fired power station located in Bell Bay in the Tamar Valley, Tasmania. It is owned by Hydro Tasmania, and is immediately adjacent to the decommissioned Bell Bay Power Station, which is also owned by Hydro Tasmania.
This facility refers to the 178MW open-cycle gas turbines at the sight.
", "units": [ { "code": "TVPP104", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 58.0, "emissions_factor_co2": 0.6647, "data_first_seen": "2009-04-01T18:20:00+10:00", "data_last_seen": "2025-07-18T19:40:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BBTHREE2", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 35.0, "emissions_factor_co2": 0.6647, "data_first_seen": "2006-08-21T17:15:00+10:00", "data_last_seen": "2025-07-01T09:05:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BBTHREE1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 35.0, "emissions_factor_co2": 0.6647, "data_first_seen": "2006-07-26T14:30:00+10:00", "data_last_seen": "2025-07-01T09:05:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BBTHREE3", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 35.0, "emissions_factor_co2": 0.6647, "data_first_seen": "2006-06-29T15:10:00+10:00", "data_last_seen": "2023-08-30T22:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BLAIRFOX_BEROSRD_WF", "name": "Beros Road", "network_id": "WEM", "network_region": "WEM", "description": "Blair Fox managed the purchase and dismantling of 19 ENERCON E40 500kW wind turbines from the Vila Lobos Wind Farm near Lamego, Portugal.
These wind turbines were transported to Western Australia, refurbished and installed at the Beros Rd Wind Farm at Warradarge around 270km north of Perth.
The Berrybank 1 Wind Farm site is located in South-Western Victoria approximately 14km east of Lismore and 16km west of Cressy. It is approximately 130km west of Melbourne within the Victorian district known as the Western Plains, located within the Corangamite and Golden Plains Local Government Areas.
", "units": [ { "code": "BRYB1WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 180.6, "data_first_seen": "2021-02-16T01:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BRYB2WF2", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 109.0, "data_first_seen": "2022-11-29T08:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BERWICK", "name": "Berwick", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "BERWICK", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 7.0, "emissions_factor_co2": 0.062, "dispatch_type": "GENERATOR" } ] }, { "code": "BERYLSF", "name": "Beryl", "network_id": "NEM", "network_region": "NSW1", "description": "Located on Wiradjuri Country in the Central West of NSW, approximately 5 kilometres west of Gulgong, Beryl Solar Farm supplies clean, green energy to power the Sydney Metro Northwest Rail Link.
", "units": [ { "code": "BERYLSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 98.0, "data_first_seen": "2019-04-23T09:55:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BIALAWF", "name": "Biala", "network_id": "NEM", "network_region": "NSW1", "description": "Biala wind farm is a 31 turbine wind farm located approximately 6km south of Grabben Gullen on Grabben Gullen Road, 8km east of Biala and 14.5km south west of Crookwell in the Southern Tablelands of NSW. The planned wind farm is 100% owned by Beijing Jingneng Clean Energy (Australia) Holding Pty Ltd (BJCE Australia) who own the nearby 73 turbine Gullen Range Wind Farm and 10MW Gullen Solar Farm.
Biala Wind Farm is expected to have an installed capacity of approximately 110MW producing enough electricity for approximately 46,000 typical homes on an average day of wind.
BJCE Australia commenced construction of the wind farm in August 2019 with electricity expected to be generated in the second quarter of 2020.
The Blayney wind farm is a wind power station at Lake Carcoar, south of Blayney, New South Wales, Australia. It was acquired by Trustpower in 2014, and is now owned by Tilt Renewables. Blayney has fifteen wind turbines, with a total nameplate capacity of 9.9 MW of electricity.
", "units": [ { "code": "BLAYNEY", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 9.9, "dispatch_type": "GENERATOR" } ] }, { "code": "SNOWY6", "name": "Blowering", "network_id": "NEM", "network_region": "NSW1", "description": "The dam houses a hydroelectric power station and has one turbine generator, with a generating capacity of 80 megawatts of electricity; with a net generation of 260 gigawatt-hours per annum. The power station has 86.6 metres rated hydraulic head.
", "units": [ { "code": "BLOWERNG", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 80.0, "data_first_seen": "2001-08-07T13:50:00+10:00", "data_last_seen": "2025-04-24T13:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SNOWY6", "fueltech_id": "hydro", "status_id": "retired", "capacity_registered": 80.0, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2001-09-24T19:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BLUEGSF", "name": "Blue Grass", "network_id": "NEM", "network_region": "QLD1", "description": "The Blue Grass solar farm in Queensland, Australia, is being developed by Spanish renewable energy producer X-ELIO. The 200MW solar facility will produce 420GWh of green electricity a year, sufficient to power approximately 80,000 Queensland homes, once fully operational in the fourth quarter of 2021.
", "units": [ { "code": "BLUEGSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 183.0, "data_first_seen": "2022-08-01T13:15:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BLULAKE", "name": "Blue Lake Milling", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "BLULAKE1", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 1.0, "emissions_factor_co2": 0.657, "dispatch_type": "GENERATOR" } ] }, { "code": "BLUEWATERS", "name": "Bluewaters", "network_id": "WEM", "network_region": "WEM", "description": "Bluewaters Power Station was the first privately owned, coal-fired power station in Western Australia. It was built by Griffin Energy in 2009. The site is 4.5 km (2.8 mi) northeast of Collie.
The plant consists of two 208 megawatts units, running on sub-bituminous coal. The boilers were constructed by IHI while the turbines and generators were supplied by Alstom. EPC contractors were Mitsui and Hitachi Plant Technologies.
Griffin Coal appointed administrators KordaMentha after financial difficulty in 2009, however the power station continues to operate.Community consultation commenced in 2009 for a proposed expansion and the WA Government approved it in 2010. The proposal is to add two identical units and bring the capacity of the plant to 830 megawatts. As of 2018 it remains on hold, with two years remaining until they are required to re-apply for approvals.
The Blyth Battery is a grid-scale battery that will connect into South Australia\u2019s electricity grid via the transmission network.
The Blyth Battery will use CATL batteries supplied and installed by our project consortium \u2013 Green Light Contractors and NHOA Australia.
The Blyth Battery will provide stability for the region by dispatching stored energy to the grid during peak times of demand.
Boco Rock Wind Farm is a wind farm 10km southwest of Nimmitabel in the Snowy Mountains region of New South Wales, Australia. It has 67 GE 100-1.7 wind turbines with a hub height of 80m, and generates up to 113MW of electricity. It is managed by the developers, CWP Renewables but is now owned by EGCO.The engineering, procurement and construction contract for the wind farm was let in June 2013 to a consortium of GE and Downer EDI. The electricity generated is contracted for sale to EnergyAustralia.
", "units": [ { "code": "BOCORWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 113.0, "data_first_seen": "2014-08-29T00:10:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BODWF", "name": "Bodangora", "network_id": "NEM", "network_region": "NSW1", "description": "Bodangora Wind Farm is a wind farm owned by Infigen Energy in the district of Bodangora near Wellington, New South Wales, Australia. It has 33 wind turbines with a total generating capacity of 113.2 MW. The towers are 85 metres tall, and the rotor diameter is 130 metres. The wind turbine blades were manufactured in Bergama, Turkey. The development of the project began in 2009. It received planning approval in August 2013. The wind farm was completed on 27 February 2019.Bodangora Wind Farm has a power purchase agreement to sell 60% of the electricity generated to EnergyAustralia until the end of 2030.
", "units": [ { "code": "BODWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 113.0, "data_first_seen": "2018-08-08T11:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MCKAY", "name": "Bogong / Mackay", "network_id": "NEM", "network_region": "VIC1", "description": "McKay Creek Power Station is one of four hydroelectric power stations in the Kiewa Hydroelectric Scheme, Victoria, Australia. McKay Creek has six 25 megawatts generators driven by Pelton wheel turbines, with a total generating capacity of 150 megawatts.
The power station is located on the slopes of Mount McKay at ground level. The water is transported from the Rocky Valley Dam through a near vertical pipe. Water released from the power station is used by the Bogong Hydropower Project, commissioned in 2009.
Iberdrola Australia has agreed to lease 120 MW of aero-derivative gas turbine equipment from the South Australian Government for a period of 25 years.
The equipment includes four independent 30 MW dual fuel units and related balance of plant. The generators can start in less than ten minutes and enable\u00a0Iberdrola Australia\u00a0to manage the intermittency risks associated with its large and growing fleet of renewable energy assets.
", "units": [ { "code": "BOWWPV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 8.25, "data_first_seen": "2022-02-23T10:55:00+10:00", "data_last_seen": "2025-07-21T18:40:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BOWWBA1L", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 3.08, "data_first_seen": "2022-02-28T14:05:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" }, { "code": "BOLIVAR1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 9.9, "emissions_factor_co2": 0.0201, "dispatch_type": "GENERATOR" }, { "code": "BOWWBA1G", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 3.08, "data_first_seen": "2022-03-02T15:10:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BOLIVPS", "name": "Bolivar", "network_id": "NEM", "network_region": "SA1", "description": "Iberdrola Australia has agreed to lease 120 MW of aero-derivative gas turbine equipment from the South Australian Government for a period of 25 years.
The equipment includes four independent 30 MW dual fuel units and related balance of plant. The generators can start in less than ten minutes and enable\u00a0Iberdrola Australia\u00a0to manage the intermittency risks associated with its large and growing fleet of renewable energy assets.
", "units": [ { "code": "BOLIVPS1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 128.0, "emissions_factor_co2": 0.7974, "data_first_seen": "2022-12-10T18:45:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BOMENSF", "name": "Bomen", "network_id": "NEM", "network_region": "NSW1", "description": "Located 10 km north-east of Wagga Wagga city centre on Wiradjuri land, in the Wagga Wagga Special Activation Precinct, Bomen Solar Farm is a 100 MW solar farm and battery built by Australian developer Spark Renewables.
", "units": [ { "code": "BOMENSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 121.0, "data_first_seen": "2020-03-17T07:55:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0BCWF", "name": "Boulder Creek", "network_id": "NEM", "network_region": "QLD1", "description": "Boulder Creek Wind Farm (Stage 1) is a 228 MW onshore wind farm, located 40 km southwest of Rockhampton and approximately 5 km west of Mount Morgan in central Queensland. The project, which is co-owned by Aula Energy and CS Energy will comprise 38 wind turbines, and will commence construction in November 2024.
", "units": [ { "code": "0BCWF1", "fueltech_id": "wind", "status_id": "committed", "capacity_registered": 221.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BBATTERY", "name": "Bouldercombe", "network_id": "NEM", "network_region": "QLD1", "description": "The Bouldercombe Battery Project (BBP) located in Rockhampton, is now operational and is\u00a0Genex\u2019s first large-scale battery energy storage project of 50MW/100MWh\u2019s.
Genex has signed a Connection Agreement with Powerlink enabling BBP to connect into the adjacent 275kV/132kV Bouldercombe substation, via an exiting 132kV bay. BBP is located at critical part of the Queensland electricity grid with high network strength and Marginal Loss Factors.
BBP is built using the Tesla Megapack 2.0 hardware and will operate under the Tesla Autobidder software.
", "units": [ { "code": "BBATRYL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 67.0, "data_first_seen": "2023-08-11T15:25:00+10:00", "data_last_seen": "2025-07-21T20:50:00+10:00", "dispatch_type": "LOAD" }, { "code": "BBATTERY", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 67.0, "data_first_seen": "2023-08-08T15:25:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BRAEMARA", "name": "Braemar", "network_id": "NEM", "network_region": "QLD1", "description": "Braemar-1 is a 502 MW open-cycle natural gas turbine plant located 35 kilometres south west of Dalby, adjacent to the Kogan Creek Power Station, Queensland \u2013 New South Wales high voltage transmission interconnector and Powerlink 320/274 kV substation. It is supplied from the Tipton West coal seam gas fields, with the 150-kilometre pipeline between Condamine and Braemar, which is used exclusively to supply the Braemar Power Station.
The power station was developed by ERM Power and was built by Alstom. It is equipped by three Alstom's 150 MW GT13E2 gas turbines. The power station cost A$545 million. It was completed in 2006 and is anticipated to operate until 2036.
Braemar-2 is a 450 MW open-cycle natural gas turbine plant adjacent to the Braemar-1 power station. The power station was developed by ERM Power and was built by Bilfinger. It supplies peak demand power and it is equipped by three Siemens's 150 MW SGT5-2000E gas turbines. The power station cost A$546 million. Gas for this power station is sourced from the Stratheden field at Daandine.
Arrow Energy acquired 50% of the station in 2008 and on 4 July 2011, it took full control of Braemar-2.
This installation, opened in 2004, generates around 40% of Bremer Bay's annual electricity, which reduces the diesel consumption required by around 40,000 litres. Situated at Bremer Bay, around 400km south-east of Perth, the 600kw turbine sits at 46 metres high, featuring three 22-metre-long blades. An identical wind turbine was installed at Hopetoun Wind Farm, about 175km west of Esperance.
", "units": [ { "code": "BREMER_BAY_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 0.6, "data_first_seen": "2013-12-18T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0BRENDALEBESS", "name": "Brendale", "network_id": "NEM", "network_region": "QLD1", "description": "The Brendale BESS will allow Akaysha to trade capacity in the electricity market to provide ancillary services, such as Energy Arbitrage, Contingency and regulation Frequency Control Ancillary Services (FCAS), to support the National Electricity Market (NEM). These features will place further downward pressure on the cost to electricity users in QLD. Akaysha expects to commence operations in 2025.
", "units": [ { "code": "0BRENDALEBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 205.0, "dispatch_type": "LOAD" }, { "code": "0BRENDALEBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 205.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BROADMDW", "name": "Broadmeadows", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "BROADMDW", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 5.0, "emissions_factor_co2": 0.0783, "dispatch_type": "GENERATOR" } ] }, { "code": "0BSSF", "name": "Broadsound", "network_id": "NEM", "network_region": "QLD1", "description": "Broadsound Solar Farm and Battery is located on Barada Kabalbara Yetimarala People land in Central Queensland\u2019s Renewable Energy Zone, approximately 150 km north west of Rockhampton.
The 368 MWdc Solar Farm will comprise of 634,000 solar panels over an area of approximately 900 ha.
", "units": [ { "code": "0BSBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 180.0, "dispatch_type": "LOAD" }, { "code": "0BSBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 180.0, "dispatch_type": "GENERATOR" }, { "code": "0BSSF1", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 368.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BWTR1", "name": "Broadwater", "network_id": "NEM", "network_region": "NSW1", "description": "Commissioned in 2008, Cape Byron is one of the largest base load generators of renewable power in Australia. Cape Byron Management purchased the Broadwater and Condong power stations in November 2013 and has continued to implement a range of efficiency, reliability and environmental improvements. Since taking over the power stations annual renewable energy generation has increased by more than 20% at both Broadwater and Condong.
The 38MW biomass power station at Broadwater produces clean, renewable electricity from mostly sugar cane milling waste, along with certain types of wood residues and energy crops, commonly referred to as \u2018biomass\u2019 fuel.
", "units": [ { "code": "BWTR1", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 38.0, "emissions_factor_co2": 0.0289, "data_first_seen": "2023-08-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BHILLGT", "name": "Broken Hill", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "GB01", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 0.6022, "data_first_seen": "2009-07-02T18:00:00+10:00", "data_last_seen": "2025-06-07T14:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BROKENH", "name": "Broken Hill", "network_id": "NEM", "network_region": "NSW1", "description": "The Broken Hill Solar Plant, which became operational in December 2015, is a 53 megawatt farm located near Broken Hill in western New South Wales, Australia. It is associated with the Nyngan Solar Plant (almost 600 km to the east), making the total capacity of the combined plants 155 megawatts.
The Broken Hill solar plant, like other generation near the edge of the grid, has suffered from changes in loss factor calculations, with a decrease of 22.7% from a 2017-18 financial year (FY) Marginal Loss Factor (MLF) of 1.2841 to 1.0603 (2018-19 FY MLF), which has affected revenue. On 12 September 2019, the output of the farm was reduced by 50%.
AGL has commenced construction of a 50 MW / 100 MWh Large-Scale Battery Energy Storage System (BESS) facility with advanced grid-forming inverters at 74 \u2013 76 Pinnacles Place, Broken Hill. The Project will support the reliable supply of electricity to Broken Hill in the event of line failure and provide efficient grid support for the region. The Project will also provide storage and firming capacity to the National Energy Market (NEM) as well as additional services to assist grid stability.
", "units": [ { "code": "BHBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 66.0, "data_first_seen": "2023-12-01T09:00:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BHBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 66.0, "data_first_seen": "2023-12-04T09:20:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "BROOKLYN", "name": "Brooklyn", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "BROOKLYN", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 2.83, "emissions_factor_co2": 0.0738, "dispatch_type": "GENERATOR" } ] }, { "code": "BROWNMT", "name": "Brown Mountain", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "BROWNMT", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 5.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BPLANDF", "name": "Browns Plains", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "BPLANDF1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 2.0, "emissions_factor_co2": 0.0762, "dispatch_type": "GENERATOR" } ] }, { "code": "BULGANA", "name": "Bulgana Green Power Hub", "network_id": "NEM", "network_region": "VIC1", "description": "Bulgana Green Power Hub is a wind farm north of Stawell in the Australian state of Victoria. The project is owned by Neoen. Construction of the 56 wind turbines, with a total generation capacity of 194MW, was completed in August 2019, and connections to the national grid reached full capacity in 2021. 90% of the energy is contracted for supply to the Government of Victoria.
", "units": [ { "code": "BULBESL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 24.0, "data_first_seen": "2021-07-06T19:40:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" }, { "code": "BULBESG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 24.0, "data_first_seen": "2021-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "BULGANA1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 204.0, "data_first_seen": "2020-05-14T11:15:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0BUNDSF", "name": "Bundaberg", "network_id": "NEM", "network_region": "QLD1", "description": "The 100 MW Solar PV SAT project is located in the Bundaberg region, approximately 360 kilometres north of Brisbane and is expected to have a life span of 25 years. The farm is being constructed across 146 hectares with an estimated 162,000 modules installed in 2,319 rows.
", "units": [ { "code": "0BUNDSF", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 78.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BNGSF1", "name": "Bungala One", "network_id": "NEM", "network_region": "SA1", "description": "The Bungala Solar Farm is located near Port Augusta, in South Australia. The Project was developed by Reach Solar Energy, and acquired by Enel Green Power in 2017.
The Plants, with a total capacity of 275 MW from approximately\u202f800,000\u202fphotovoltaic (PV) modules, commenced full production in 2020.
", "units": [ { "code": "BNGSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 135.0, "data_first_seen": "2018-05-14T17:50:00+10:00", "data_last_seen": "2025-07-21T17:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BNGSF2", "name": "Bungala Two", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "BNGSF2", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 135.0, "data_first_seen": "2018-10-30T09:15:00+10:00", "data_last_seen": "2025-07-21T17:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0BUNGAMA", "name": "Bungama", "network_id": "NEM", "network_region": "SA1", "description": "The Bungama BESS is designed to integrate into the National Electricity Market through a 275 kV connection to ElectraNet\u2019s Bungama Substation. Through grid connection, the Project will contribute to a more reliable and stable network for South Australia, by storing excess energy until it is needed. The project is being designed for an operational life of up to 25 years.
", "units": [ { "code": "0BUNGAMABESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 150.0, "dispatch_type": "LOAD" }, { "code": "0BUNGAMABESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 150.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BDONGHYD", "name": "Burrendong", "network_id": "NEM", "network_region": "NSW1", "description": "Burrendong Dam is a rock-fill embankment major gated dam with a clay core across the Macquarie River upstream of Wellington in the central west region of New South Wales, Australia. A hydro-electric power station generates up to 19 megawatts (25,000 hp) of electricity from the flow of the water leaving Burrendong Dam.
", "units": [ { "code": "BDONGHYD", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 19.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BURRIN", "name": "Burrinjuck", "network_id": "NEM", "network_region": "NSW1", "description": "Burrinjuck Power Station is a hydroelectric power station at Burrinjuck Dam, New South Wales, Australia. Burrinjuck has three turbines with a total generating capacity of 28 megawatts (38,000 hp) of electricity.
The power station was commenced in 1927, running two 5 megawatts (6,700 hp) turbines. In 1938, an additional two 5 MW turbines were added at the dam wall. In 1972, floods damaged the original two turbines, which were decommissioned. In 2017, the remaining two turbines were each upgraded to 6 megawatts (8,000 hp), and an additional turbine of 16 megawatts (21,000 hp) was added.
The Butlers Gorge Power Station is a conventional hydroelectric power station located in the Central Highlands region of Tasmania, Australia.
", "units": [ { "code": "BUTLERSG", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 14.4, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T08:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0CALBESS1", "name": "Calala 1", "network_id": "NEM", "network_region": "NSW1", "description": "The proposed Calala Battery Energy Storage System (BESS) is located approximately 5.8km southeast of the Tamworth CBD within the Tamworth regional municipality. The BESS has a charge/discharge capacity of up to 250MW and an energy storage capacity up to 500MWh which is enough power to supply electricity for up to 110,000 homes.
", "units": [ { "code": "0CALBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 150.0, "dispatch_type": "LOAD" }, { "code": "0CALBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 150.0, "dispatch_type": "GENERATOR" } ] }, { "code": "0CALBESS2", "name": "Calala 2", "network_id": "NEM", "network_region": "NSW1", "description": "The proposed Calala Battery Energy Storage System (BESS) is located approximately 5.8km southeast of the Tamworth CBD within the Tamworth regional municipality. The BESS has a charge/discharge capacity of up to 250MW and an energy storage capacity up to 500MWh which is enough power to supply electricity for up to 110,000 homes.
", "units": [ { "code": "0CALBESSL2", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "LOAD" }, { "code": "0CALBESSG2", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "GENERATOR" } ] }, { "code": "CALL_A", "name": "Callide A", "network_id": "NEM", "network_region": "QLD1", "description": "Callide Power Station is located near Biloela, in Central Queensland, Australia. It is coal powered with eight steam turbines with a combined generation capacity of 1,720 MW of electricity. Callide A was commissioned in 1965, refurbished in 1998 and decommissioned in 2015/16.
", "units": [ { "code": "CALL_A_2", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.328, "data_first_seen": "1998-12-21T07:05:00+10:00", "data_last_seen": "2001-12-12T04:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CALL_A_1", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.328, "data_first_seen": "1999-01-14T14:10:00+10:00", "data_last_seen": "2001-12-12T17:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CALL_A_3", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.328, "data_first_seen": "1999-01-14T05:15:00+10:00", "data_last_seen": "2001-09-14T14:05:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CALL_A_4", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.328, "data_first_seen": "1999-01-14T06:50:00+10:00", "data_last_seen": "2015-03-06T21:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CALL_B", "name": "Callide B", "network_id": "NEM", "network_region": "QLD1", "description": "Callide Power Station is located near Biloela, in Central Queensland, Australia. It is coal powered with eight steam turbines with a combined generation capacity of 1,720 MW of electricity. Callide A was commissioned in 1965, refurbished in 1998 and decommissioned in 2015/16. As of 2018, generation capacity was 1510 MW.The coal for Callide comes from the nearby Callide Coalfields and water from the Awoonga dam and Stag Creek Pipeline.
", "units": [ { "code": "CALL_B_2", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 350.0, "emissions_factor_co2": 0.9556, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CALL_B_1", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 350.0, "emissions_factor_co2": 0.9556, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CALLIDEC1", "name": "Callide C", "network_id": "NEM", "network_region": "QLD1", "description": "Callide Power Station is located near Biloela, in Central Queensland, Australia. It is coal powered with eight steam turbines with a combined generation capacity of 1,720 MW of electricity. Callide A was commissioned in 1965, refurbished in 1998 and decommissioned in 2015/16. As of 2018, generation capacity was 1510 MW.The coal for Callide comes from the nearby Callide Coalfields and water from the Awoonga dam and Stag Creek Pipeline.
", "units": [ { "code": "CPP_3", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 420.0, "emissions_factor_co2": 0.887, "data_first_seen": "2001-02-08T10:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CPP_4", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 420.0, "emissions_factor_co2": 0.887, "data_first_seen": "2001-08-01T14:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CANUNDA1", "name": "Canunda", "network_id": "NEM", "network_region": "SA1", "description": "Canunda Wind Farm (formerly named Lake Bonney Central Wind Farm) is a $92.5 million, 46 MW wind power project located on grazing land approximately 16 kilometres south of Millicent, and 6 kilometres west of Tantanoola in South Australia. It is jointly owned by GDF Suez Energy AustraliaEn 72%) and Mitsui (28%).
The wind farm is made up of 23 Vestas 2.0 MW wind turbines, together with an underground electrical cable network, access tracks, crane hardstandings, wind monitoring masts and a 33 kV double-circuit distribution line. Each turbine consists of a 67-metre-high (220 ft) tower and 40-metre-long (130 ft) blades, and so are 107 metres in height to the tip of the blade. These wind turbines rotate at speeds between 9 rpm and 19 rpm, depending on the wind speed. The wind yield in South Australia enables Canunda to produce electricity at a 34 per cent capacity factor, a high yield by global standards.The wind farm generates enough electricity to supply around 30,000 average South Australian homes. The Canunda Wind Farm distribution line is 16 km long and transports the generated electricity from the wind farm to a nearby substation at Snuggery. The distribution line traverses mostly roadside verges, avoiding areas of environmental sensitivity along the route. The Canunda Wind Farm provides a number of benefits to the local and wider community, including clean electricity generation, enhanced agricultural viability of the farms involved and increased diversity of electricity supply for South Australia and the south east in particular. There has also been widespread community interest in the project and site tours have commenced.The Canunda Wind Farm was opened by the Premier of South Australia, Mike Rann, on 31 March 2005. The project was completed on time and on budget and Wind Prospect provided engineering support to the owners of the wind farm, International Power, during the construction phase. Canunda Wind Farm was International Power's first wind farm globally. It represents a diversification of the company's energy business in Australia.
The Capital Battery is a 100MW stand-alone battery capable of storing up to 200MWh of energy with up to 2 hours of power in reserve. 50 MW was committed as part of the ACT Government\u2019s 2020 renewable energy auction, with a further 50 MW yet to be contracted.
", "units": [ { "code": "CAPBES1G", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 125.0, "data_first_seen": "2023-07-26T11:05:00+10:00", "data_last_seen": "2025-07-21T20:35:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CAPBES1L", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 125.0, "data_first_seen": "2023-07-25T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "CAPTL_WF", "name": "Capital", "network_id": "NEM", "network_region": "NSW1", "description": "The Capital Wind Farm near Bungendore is the largest wind farm in New South Wales. It is part of the 6,000-hectare (15,000-acre) Capital Renewable Energy Precinct, along with nearby Woodlawn Wind Farm and the Capital East Solar Demonstration Plant.
Capital Wind Farm was built by international contractors Suzlon Energy for owner and operator Infigen Energy. Construction began in early 2008, and the wind farm became fully operational in October 2009. It is a 140.7 megawatt wind farm with 67 turbines.
Capital East Solar Farm 1 and 2 are co-located on the same site and adjacent to Capital Wind Farm. Construction was completed on the 120kW Capital East Solar Farm 1 in 2013. This was expanded in 2018 to 500kW with the addition of Capital East Solar 2 by 5B whom now provide the operations and maintenance services for both solar farms.
", "units": [ { "code": "CESF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 0.5, "dispatch_type": "GENERATOR" } ] }, { "code": "LI_WY_CA", "name": "Catagunya / Liapootah / Wayatinah", "network_id": "NEM", "network_region": "TAS1", "description": "Liapootah is the first power station in the lower run-of-river system and it is where the cascade effect begins. Water from Lake Liapootah runs through to Liapootah Power Station and continues to Wayatinah Lagoon.
Water from Wayatinah Lagoon flows through to Wayatinah Power Station, continuing to Lake Catagunya.
Water from Lake Catagunya flows into Catagunya Power Station and then on to Lake Repulse.
", "units": [ { "code": "LI_WY_CA", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 173.7, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CATAGUN1", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 24.0, "emissions_factor_co2": 0.972, "data_first_seen": "2016-03-11T16:35:00+10:00", "data_last_seen": "2016-05-06T15:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CATHROCK", "name": "Cathedral Rocks", "network_id": "NEM", "network_region": "SA1", "description": "Cathedral Rocks Wind Farm is a wind power station located about 30 km west of Port Lincoln in South Australia, near the southern tip of the Eyre Peninsula. It has 33 wind turbines of 2 MW each, with a combined generating capacity of 66 MW of electricity. The site covers an area of about 29 km\u00b2, with a coastal exposure of nearly 11 km and is private farming land. The wind farm was commissioned in September 2005.Before the wind farm was built, extensive environmental and cultural studies were conducted. Surveys undertaken included the assessment of potential impacts to Aboriginal and European cultural heritage, flora, visual amenity, noise levels, birds and other animals. Construction of the wind farm was undertaken with consideration for the environment.Construction started in 2004, and the first turbines were commissioned in late 2005. The wind farm was fully operational by 2007. It is operated by a joint venture between EnergyAustralia and Acciona Energy.
", "units": [ { "code": "CATHROCK", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 66.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CTHLWF", "name": "Cattle Hill", "network_id": "NEM", "network_region": "TAS1", "description": "Cattle Hill Wind Farm is a wind farm project being developed and constructed by Goldwind Australia, in Tasmania.
The facility began construction in 2018 and has 48 wind turbines at a site just east of Lake Echo in the Tasmanian Central Highlands.
The Cethana Power Station is a conventional hydroelectric power station located in north-western Tasmania, Australia.
", "units": [ { "code": "CETHANA", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 85.0, "data_first_seen": "2005-05-16T17:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CHALLWF", "name": "Challicum Hills", "network_id": "NEM", "network_region": "VIC1", "description": "Challicum Hills Wind Farm is a wind farm encompassed by 35 (1.5 MW) NEG NM 64 wind turbines, with a total generating capacity of 52.5 MW of electricity. The wind farm is near Ararat in western Victoria, Australia. The power station was commissioned in August 2003 and is in a long term Power Purchase Agreement (PPA) with Origin Energy.
The wind farm is owned and operated by Pacific Hydro. Part of the profits flow into a community fund that supports local projects.
The Chepstowe Wind Farm, located approximately 30 km west of Ballarat, is a three turbine wind farm of 6.15MW capacity. The project was completed in March 2015. The three Senvion turbines began supplying energy to the local grid in April 2015. All the energy produced is be purchased on a long term contract. In an average year, enough renewable energy will be produced to power over 3,400 households.
", "units": [ { "code": "CHPSTWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 6.15, "dispatch_type": "GENERATOR" } ] }, { "code": "CHYTWF", "name": "Cherry Tree", "network_id": "NEM", "network_region": "VIC1", "description": "Cherry Tree Wind Farm is a small wind farm located approximately 15\u00a0km south-east of Seymour, Victoria. The 16 turbine, 57.6 MW farm was developed and constructed by Infigen Energy for John Laing Group. Construction started in January 2019 and was operational in June 2020. The wind farm is expected to generate 182 GWh on average annually, for a capacity factor of 36%.
", "units": [ { "code": "CHYTWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 57.6, "data_first_seen": "2020-05-01T18:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CHILDSF", "name": "Childers", "network_id": "NEM", "network_region": "QLD1", "description": "Atmos Renewables acquired 100% of the interests in Childers Solar Farm Solar Farm in June 2022. The plant is located approximately 75km south of Bundaberg, QLD. Commercial operations were reached in June 2019 and is connected to the 66kV Ergon network at the onsite Childers substation. The Childers Solar Farm is expected to generate over 120GWh of electricity per annum.
", "units": [ { "code": "CHILDSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 64.38, "data_first_seen": "2019-02-06T16:10:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CHBESS", "name": "Chinchilla", "network_id": "NEM", "network_region": "QLD1", "description": "The Chinchilla Battery is a $150 million grid-scale battery at CS Energy's Kogan Creek site near Chinchilla on the Western Downs.
It uses lithium iron phosphate (also known as lithium ferro phosphate [LFP], or LiFePO4) batteries, which are the safest lithium batteries currently available.
", "units": [ { "code": "CHBESSG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 134.0, "data_first_seen": "2024-02-16T14:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CHBESSL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 134.0, "data_first_seen": "2023-12-16T06:40:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "CBWWBA", "name": "Christies Beach", "network_id": "NEM", "network_region": "SA1", "description": "Christies Beach wastewater treatment plant began operating in 1970 and was expanded in 1981 to support the growing southern suburbs population. It also received a significant upgrade in 2013 to ensure it can meet community needs until 2030.
", "units": [ { "code": "CBWWPV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 2.75, "dispatch_type": "GENERATOR" }, { "code": "CBWWBG1", "fueltech_id": "bioenergy_biogas", "status_id": "committed", "capacity_registered": 0.66, "emissions_factor_co2": 0.357, "dispatch_type": "GENERATOR" }, { "code": "CBWWDG1", "fueltech_id": "distillate", "status_id": "committed", "capacity_registered": 2.0, "emissions_factor_co2": 0.785, "dispatch_type": "GENERATOR" }, { "code": "CBWWDG2", "fueltech_id": "distillate", "status_id": "committed", "capacity_registered": 0.72, "emissions_factor_co2": 0.785, "dispatch_type": "GENERATOR" }, { "code": "CBWWPV2", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 1.08, "dispatch_type": "GENERATOR" }, { "code": "CBWWBA1G", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 2.16, "data_first_seen": "2023-05-09T03:20:00+10:00", "data_last_seen": "2025-07-21T18:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CBWWBA1L", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 2.09, "data_first_seen": "2023-05-02T11:50:00+10:00", "data_last_seen": "2025-07-21T20:40:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "CLARESF", "name": "Clare", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "CLARESF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 110.0, "data_first_seen": "2018-04-17T09:15:00+10:00", "data_last_seen": "2025-07-21T17:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CLRKCWF", "name": "Clarke Creek", "network_id": "NEM", "network_region": "QLD1", "description": "Stage One of the Clarke Creek Wind Farm is located 150km north-west of Rockhampton and 150km south of Mackay on the land of the Barada Kabalbara Yetimarala (BKY) peoples. The 450MW wind farm will produce enough electricity to power around 330,000 Queensland homes and avoid 738,000 tonnes of carbon emissions each year.
EDL\u2019s Clayton Power Station occupies the former sand quarries at Clayton in Victoria. The landfill site, which is part of the Cleanaway Waste Management Clayton South Resource Recovery Centre, is substantially filled and closed but continues to generate landfill gas (LFG).
", "units": [ { "code": "CLAYTON", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 11.0, "emissions_factor_co2": 0.0654, "dispatch_type": "GENERATOR" } ] }, { "code": "CLEMGPWF", "name": "Clements Gap", "network_id": "NEM", "network_region": "SA1", "description": "Clements Gap Wind Farm is a wind farm opened in 2010 located in the Barunga Range, South Australia near Clements Gap, some 20 minutes south of Port Pirie. The wind farm consists of 27 wind turbines with a total generating capacity of 57 MW. It provides enough electricity for up to 33,000 homes and is estimated to avoid the emission of 150,000 tonnes of greenhouse gases each year. The Clements Gap site was chosen because of its powerful winds, easy construction access, simple grid connection, and strong community support.
", "units": [ { "code": "CLEMGPWF", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 57.0, "data_first_seen": "2009-05-07T15:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CLERMSF", "name": "Clermont", "network_id": "NEM", "network_region": "QLD1", "description": "Located in Clermont, 106km north of Emerald, Queensland, the 89MWp DC Clermont Solar Farm is the third solar plant in Gentari Solar Australia\u2019s portfolio based in QLD. It created just under 600 jobs in various capacities during construction and continues to employ those within the local community for the operations and maintenance of the asset.
", "units": [ { "code": "CLERMSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 92.0, "data_first_seen": "2019-06-19T09:55:00+10:00", "data_last_seen": "2025-07-21T17:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CLOVER", "name": "Clover", "network_id": "NEM", "network_region": "VIC1", "description": "One of four units in the Kiewa Hydroelectric Scheme.
350km northeast of Melbourne in the Australian Alps, the Kiewa Hydroelectric Scheme is the largest in the State. Kiewa houses four power stations with an average annual electricity output of 404 GWh. The scheme harnesses energy from the Rocky Valley and Pretty Valley branches of the East Kiewa River, which rises on the Bogong High Plains, and the West Kiewa River, which rises near Mount Hotham.
", "units": [ { "code": "CLOVER", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 29.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-02-28T08:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CLOVER1", "fueltech_id": "hydro", "status_id": "retired", "capacity_registered": 14.5, "data_first_seen": "1998-12-07T06:40:00+10:00", "data_last_seen": "1999-10-14T10:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "CLOVER2", "fueltech_id": "hydro", "status_id": "retired", "capacity_registered": 14.5, "data_first_seen": "1998-12-07T06:40:00+10:00", "data_last_seen": "1999-10-14T10:00:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CLUNY", "name": "Cluny", "network_id": "NEM", "network_region": "TAS1", "description": "The Cluny Power Station is a conventional hydroelectric power station located in the Central Highlands region of Tasmania, Australia. The power station is situated on the Lower River Derwent catchment and is owned and operated by Hydro Tasmania.
", "units": [ { "code": "CLUNY", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 19.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "COCKBURN", "name": "Cockburn", "network_id": "WEM", "network_region": "WEM", "description": "Cockburn Power Station (CKB) is a power station in Cockburn, Western Australia. The station was commissioned by Western Power Corporation in 2003 and is immediately south of the older Kwinana Power Station. It has a 160 MW natural gas powered Alstom GT13E2 gas turbine which provides steam to an 80 MW steam turbine that together generate a total 240 MW of electricity. It was the first combined cycle gas turbine power station in Western Australia. It came under the control of Verve Energy in 2006 when Western Power was split, and since 2014 has been under control of Synergy.
", "units": [ { "code": "COCKBURN_CCG1", "fueltech_id": "gas_ccgt", "status_id": "operating", "capacity_registered": 249.7, "emissions_factor_co2": 0.3733, "data_first_seen": "2013-12-18T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CODRGTON", "name": "Codrington", "network_id": "NEM", "network_region": "VIC1", "description": "Codrington Wind Farm is a wind farm near Yambuk on the coast of south-western Victoria, Australia.
Completed in June 2001, the 18.2MW installation of 14 wind turbines generates 51 GWh annually, for a capital cost of A$30 million by
Pacific Hydro being the first fully private investment in a wind farm in Australia. When opened it was Australia's largest wind farm and the first in Victoria.
The Yambuk wind farm (Part of the Portland Wind Farm project) is directly adjacent to the Codrington Wind Farm. It has a total of 30MW in its 20 turbines.
Cohuna Solar Farm is situated approximately 8 kilometres south of the town of Cohuna and around 25km east of Kerang in the Shire of Gannawarra in northern Victoria. Cohuna was one of 6 solar projects to score a guernsey in Victoria\u2019s first renewable energy auction. Cohuna Solar Farm is expected to generate up to 77 GWh of electricity each year, avoiding around 71,000 tonnes of CO2 emissions annually. The project will involve the installation of approximately 87,000 bifacial solar panels, which make use of light hitting both the front and rear of the module
", "units": [ { "code": "COHUNSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 31.1, "data_first_seen": "2021-03-05T16:30:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "COLEASF", "name": "Coleambally", "network_id": "NEM", "network_region": "NSW1", "description": "Colleambally Solar Farm is a photovoltaic power station near the town of Coleambally in New South Wales, Australia. It is on the western side of the Kidman Way north of the town.
It has an output of 150MW and was the largest solar power station in Australia when it was commissioned in November 2018. It is owned by Neoen and was built by Bouygues. It has a 12-year power purchase agreement to sell its output to EnergyAustralia.The power station consists of a total of 565,488 solar panels arranged into 19,086 strings of panels. Each solar tracker drives three strings.
Construction work on the 226.8MW project started in May 2019 and is expected to be finished in early 2021. The wind farm successfully exported its first safe, clean, renewable electricity in November 2020. The 54 turbines measure 150m to the blade tip and are located around 4km from Collector.
", "units": [ { "code": "COLWF01", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 226.0, "data_first_seen": "2020-11-12T22:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "INVESTEC_COLLGAR", "name": "Collgar", "network_id": "WEM", "network_region": "WEM", "description": "Collgar Wind Farm is a wind farm located approximately 25 kilometres south-east of Merredin, Western Australia. With 111 Vestas V90-2MW wind turbines built in the first stage, and a total capacity of 222 MW, it is expected to generate 720 GWh on average per year over the life of the project. It became fully operational in October 2011.
", "units": [ { "code": "INVESTEC_COLLGAR_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 222.0, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0SYNCOLLIEBESS", "name": "Collie", "network_id": "WEM", "network_region": "WEM", "description": "In line with the WA State Government\u2019s decarbonisation strategy to be delivered by 2030, the Collie Battery Energy Storage System (CBESS) Project forms part of Synergy's decarbonisation strategy.
Coal-fired power generation is being replaced with renewable energy generation infrastructure and energy storage solutions.
CBESS is expected to deliver 64% of the new energy storage capacity announced as part of this plan.
", "units": [ { "code": "0SYCOLLBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 500.0, "dispatch_type": "LOAD" }, { "code": "0SYCOLLBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 500.0, "dispatch_type": "GENERATOR" } ] }, { "code": "COLLIE", "name": "Collie", "network_id": "WEM", "network_region": "WEM", "description": "Collie Power Station is a power station in Collie, Western Australia. It is coal powered with one steam turbine that generates a total capacity of 300 megawatts of electricity. The coal is mined locally from the Collie Sub-basin and is transported to the power plant by overland conveyor.
The station was commissioned in 1999 with a single 300 megawatts steam turbine. Power generated by the station supplies the south-west of Australia through the South West Interconnected System (SWIS) operated by Western Power.In the financial year of 2008/2009, the station consumed approximately 1 million tonnes (2.2 billion pounds) of coal. Carbon Monitoring for Action estimates that, in 2009, Collie Power Station emitted 2.59 million tonnes (5.7 billion pounds) of CO2 to generate 2.3 terawatt-hours (8.3 petajoules) of electricity.In household consumer terms, this equates to 1.13 kilograms (2.5 lb) of CO2 emitted for each one kilowatt-hour (kWh), or 3.6 megajoules, of electricity produced and fed into the electricity grid. That is, Collie Power Station emits slightly less CO2 per kilowatt-hour of electricity produced than nearby closing Muja Power Station (1.14 kilograms or 2.5 pounds) but more than also nearby Bluewaters Power Station (0.825 kilograms or 1.82 pounds) based on estimates for the same year.
Collie Battery is Neoen\u2019s first 4-hour long duration battery & its first major project in Western Australia. The project\u00a0has development approval for 1 GW / 4 GWh.
Once operational, Collie Battery will be able to provide short duration storage in peak times to ease pressure on the grid. It will have the ability to charge and discharge 20% of the average demand in Western Australia\u2019s South-West Interconnected System (SWIS).
Stage 1 is sized at 219 MW / 877 MWh
", "units": [ { "code": "COLLIE_ESRG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 219.0, "data_first_seen": "2024-08-05T16:45:00+08:00", "data_last_seen": "2025-07-21T07:55:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "COLLIE_ESRL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 219.0, "data_first_seen": "2024-07-25T14:40:00+08:00", "data_last_seen": "2025-07-21T07:25:00+08:00", "dispatch_type": "LOAD" } ] }, { "code": "0COLLIE_ESR2", "name": "Collie 2", "network_id": "WEM", "network_region": "WEM", "description": "Collie Battery is Neoen\u2019s first 4-hour long duration battery & its first major project in Western Australia. The project\u00a0has development approval for 1 GW / 4 GWh.
Once operational, Collie Battery will be able to provide short duration storage in peak times to ease pressure on the grid. It will have the ability to charge and discharge 20% of the average demand in Western Australia\u2019s South-West Interconnected System (SWIS).
Stage 2 is sized at 341 MW / 1,363 MWh
", "units": [ { "code": "0COLLIE_ESRG2", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 341.0, "dispatch_type": "GENERATOR" }, { "code": "0COLLIE_ESRL2", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 341.0, "dispatch_type": "LOAD" }, { "code": "COLLIE_BESSG2", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 341.0, "dispatch_type": "GENERATOR" }, { "code": "COLLIE_BESSL2", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 341.0, "dispatch_type": "LOAD" } ] }, { "code": "COLNSV", "name": "Collinsville", "network_id": "NEM", "network_region": "QLD1", "description": "Collinsville Power Station is located south of Townsville, Queensland, Australia. It had five coal powered steam turbines with a combined generation capacity of 190 MW of electricity. The coal-fired power station closed in 2013. A solar power farm generating 42MW has been built on adjacent land.
", "units": [ { "code": "COLNSV_1", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.1918, "data_first_seen": "1998-12-07T02:50:00+08:00", "data_last_seen": "2012-08-16T10:20:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "COLNSV_2", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.1918, "data_first_seen": "1998-12-14T01:30:00+08:00", "data_last_seen": "2012-08-16T10:30:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "COLNSV_3", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.1918, "data_first_seen": "1998-12-07T03:00:00+08:00", "data_last_seen": "2012-04-18T17:20:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "COLNSV_4", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.1918, "data_first_seen": "1998-12-07T02:50:00+08:00", "data_last_seen": "2012-08-15T11:50:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "COLNSV_5", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 66.0, "emissions_factor_co2": 1.1918, "data_first_seen": "1998-12-07T02:50:00+08:00", "data_last_seen": "2012-08-16T11:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CSPVPS", "name": "Collinsville", "network_id": "NEM", "network_region": "QLD1", "description": "Collinsville Solar Farm is located near Collinsville in central Queensland. The project was constructed on land surrounding the decommissioned (2013) Collinsville coal-fired power station, commencing operations in 2018.
The project consists of approximately 180,000 individual solar PV panels and has a generation capacity of 42.5 megawatts. It produces enough electricity each year to power up to 15,000 homes. The project offsets 90,000tonnes of carbon dioxide emissions (Co2) a year.
", "units": [ { "code": "CSPVPS1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 42.0, "data_first_seen": "2018-07-31T14:30:00+10:00", "data_last_seen": "2025-07-21T17:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "COLONGRA", "name": "Colongra", "network_id": "NEM", "network_region": "NSW1", "description": "Colongra Gas Generation Plant (also known as Colongra Power Station) is a 667 MW gas-fired power station located in Colongra, New South Wales, Australia and is the largest gas-fired power station in New South Wales. It will generally be used during peak demand periods in New South Wales.
The plant's construction was tendered to Alstom which began the construction in October 2007, adjacent to the Munmorah coal-fired power station. The plant was completed and commissioned in December 2009 at a cost of A$500 million.It was bought by Snowy Hydro in January 2015.
The Columboola Solar Farm is a 162MWAC or 202.5 MWDC utility scale generation project situated on 410 hectares of grazing land in Western Downs, Queensland. The site is located approximately 10km north-east of Miles, and is accessible from Ryall Road off the Warrego Highway.
", "units": [ { "code": "COLUMSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 217.0, "data_first_seen": "2022-06-14T10:30:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CPSA", "name": "Condamine A", "network_id": "NEM", "network_region": "QLD1", "description": "Condamine Power Station is a 140 MW combined cycle power station near Miles on the western Darling Downs in Queensland, Australia. The station is located 8 kilometres (5.0 mi) east of Miles on the south side of the Warrego Highway. The Condamine Power Station is owned by QGC Limited, a subsidiary of Royal Dutch Shell. It has been claimed to be the world\u2019s first combined-cycle power station entirely fired by untreated coal seam gas and Australia's first steam turbine condenser cooled by coal seam methane waste water. However, the Townsville Power Station at Yabulu, which was converted from a peak load power station to burn only coal seam gas in a combined cycle configuration, was commissioned much earlier, in February 2005.
Construction began on 19 October 2007. It was completed in mid-2010. The EPC contractor was Austrian Energy and Environment with the gas turbines supplied by Siemens. Parsons Brinckerhoff were the owner's engineer for construction. The gas turbine with dispatchable unit ID (DUID) "CPSA" began bidding into the National Electricity Market on 1 June 2009, with the first generation made available to the market on 10 July 2009. The Columboola Switching Station, which connects Condamine Power Station with the Chinchilla-to-Roma 132-kilovolt
transmission line, was completed in October 2008.
AGL Energy had an option to acquire the Condamine Power Station. This option was not exercised and expired on 14 April 2009.The power station has installed capacity of 140 MW.
Electricity is generated by two gas turbines and one steam turbine from coal seam gas. The two gas turbines are Siemens SGT-800 models and the steam turbine is a Siemens SST-400. According to the NEMMCO Applicants list, the registered capacity of the gas turbine is 87.4 MW (2 x 43.7 MW) and the registered capacity of the steam turbine is 57.1 MW.The gas reserves are extracted from the Berwyndale South Gasfield. Building the plant directly on top of the gas source will provide some of the cheapest gas-fired electricity to the National Electricity Market.
Commissioned in 2008, Cape Byron is one of the largest base load generators of renewable power in Australia. Cape Byron Management purchased the Broadwater and Condong power stations in November 2013 and has continued to implement a range of efficiency, reliability and environmental improvements. Since taking over the power stations annual renewable energy generation has increased by more than 20% at both Broadwater and Condong.
Cape Byron Power operates the Condong Cogeneration Plant. This exists alongside the sugar mill, which has been part of the community for over 140 years. The Condong Plant contributes to the local economy, supporting the sugar cane industry and directly employs 25 people. The power to operate the sugar mill is generated primarily from bagasse, a waste product from sugar cane. It also provides power that is sold to the grid. This waste product is only available during the sugar cane crush season being from June to December. The use of this waste avoids it being transported elsewhere and potentially going to landfill. Other products are used to fuel the generation of power in the non-crush season (generally January through to mid June
", "units": [ { "code": "CONDONG1", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 30.0, "emissions_factor_co2": 0.0366, "data_first_seen": "2023-08-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CBWF", "name": "Coonoer Bridge", "network_id": "NEM", "network_region": "VIC1", "description": "Coonooer Bridge Wind Farm is a wind farm 90 km northwest of Bendigo in the Australian state of Victoria. Its output is contracted to supply the Australian Capital Territory via the National Electricity Market at $81.50 per megawatt hour.The site is jointly owned by Eurus Energy, Windlab and the local community. It was the first commercial wind farm in Australia to have the local community included in the ownership in this way.
", "units": [ { "code": "CBWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 19.8, "dispatch_type": "GENERATOR" } ] }, { "code": "COOPGWF", "name": "Coopers Gap", "network_id": "NEM", "network_region": "QLD1", "description": "Coopers Gap Wind Farm is a 453 megawatt wind power station in the Bilboa and Cooranga North region, of Australia, approximately 50 kilometres (31 mi) south-west of Kingaroy and 65 km (40 mi) north of Dalby in Queensland, Australia.
A 60-metre (197 ft) wind-monitoring mast was installed in March 2006 in order to accurately measure wind speed and direction in the area.
Copeton is AGL's largest hydroelectric power station in New South Wales, located 340 metres downstream from the Copeton Dam. The Copeton Dam has a storage capacity of around 1,364 GL and experiences variable water flow. Similarly to the Burrendong Dam, the primary purpose of the Copeton Dam is to supply irrigation for farming, domestic and industrial needs. The dam's secondary purpose is to provide a measure of flood mitigation. Dam releases required by State Water are made to assist in wildlife conservation in downstream areas, especially in the lower reaches known as the Watercourse country . The station has two Kvaerner turbines, giving a total generating capacity of 22.5 MW.
", "units": [ { "code": "COPTNHYD", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 22.5, "dispatch_type": "GENERATOR" } ] }, { "code": "CORIO", "name": "Corio", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "CORIO1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.062, "dispatch_type": "GENERATOR" } ] }, { "code": "CRWASF1", "name": "Corowa", "network_id": "NEM", "network_region": "NSW1", "description": "Corowa Solar Farm is a 30 MWac solar farm in NSW just outside of the 5,500 person strong town of Corowa. The project has been in development since 2017 and is currently in the late stages of construction.
", "units": [ { "code": "CRWASF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 36.0, "data_first_seen": "2021-02-14T13:55:00+10:00", "data_last_seen": "2025-07-21T17:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CROOKWEL", "name": "Crookwell", "network_id": "NEM", "network_region": "NSW1", "description": "Crookwell Wind Farm, located at Crookwell west of Goulburn, New South Wales with a total capacity of 4.8 MW. It was the first grid-connected wind farm in Australia when built by Pacific Power in 1998. It is now owned by Tilt Renewables.
The farm was the largest wind farm in Australia when built, with the energy produced bought and on-sold to customers by then energy retailer Great Southern Energy.
In November, GPG (the international electricity generation subsidiary of Naturgy) opened its Crookwell II Wind Farm in New South Wales, inside the ATC (Australian Capital Territory) and only 90 kilometres from Canberra, the Australian capital. The facility has a power capacity of 96 MW, 28 wind turbines and it will be able to supply 42,000 homes in Canberra thanks to generating 300,000 megawatts/hour per year of renewable electricity.
", "units": [ { "code": "CROOKWF2", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 96.04, "data_first_seen": "2018-08-14T08:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CROOKWF3", "name": "Crookwell 3", "network_id": "NEM", "network_region": "NSW1", "description": "Crookwell 3 Wind Farm, located at Crookwell 25km north-west of Goulburn, and 90km north-east of Canberra, within the Upper Lachlan Shire Local Government Area, New South Wales
", "units": [ { "code": "CROOKWF3", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 57.0, "data_first_seen": "2024-05-22T14:00:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CROWLWF", "name": "Crowlands", "network_id": "NEM", "network_region": "VIC1", "description": "Crowlands Wind Farm is located in Western Victoria\u2019s Pyrenees Shire Council, 25km north-east of Ararat (205km west of Melbourne). The site was identified as an area highly suitable for efficiently capturing energy from the wind.
After a long period of consultation with the local community that began in 2004, the project was granted planning approval in August 2010. Following pre-construction assessments, consultations and reviews, the layout for the project has been refined and subsequently reduced. Development approval to construct and operate a wind energy facility at Crowlands was granted to Pacific Blue in 2013.
Crowlands Wind Farm consists of 39 turbines that produce clean energy equivalent to the yearly needs of around 50,000 Victorian homes. The turbines are Senvion MM92 wind turbine generators, rated at 2.05MW each, with a maximum hub height of 100m and a maximum blade tip height of 146.5m.
", "units": [ { "code": "CROWLWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 79.95, "data_first_seen": "2018-12-09T13:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "CRURWF1", "name": "Crudine Ridge", "network_id": "NEM", "network_region": "NSW1", "description": "The Crudine Ridge Wind Farm is a 135MW wind energy project situated approximately 45 km south of Mudgee, NSW.
", "units": [ { "code": "CRURWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 141.0, "data_first_seen": "2020-12-02T11:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0CULCSF", "name": "Culcairn", "network_id": "NEM", "network_region": "NSW1", "description": "The 440 MWp Culcairn Solar Farm spans across 1,000 hectares of land and will be Neoen\u2019s second largest solar asset in Australia once it goes into operations.
Neoen secured development approval for Culcairn Solar Farm from the NSW Government in 2021, with an option to build a 100 MW / 200 MWh battery in the future.
It will connect into the on-site 330 kV transmission line managed by TransGrid.
", "units": [ { "code": "CUSF1", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 350.0, "dispatch_type": "GENERATOR" } ] }, { "code": "CULLERIN", "name": "Cullerin Range", "network_id": "NEM", "network_region": "NSW1", "description": "The 30 megawatt Cullerin Range Wind Farm is located in the localities of Cullerin and Breadalbane in the Upper Lachlan Shire, New South Wales, Australia. The wind farm was completed in 2009 and cost around $90 million. The owner, Origin Energy, sold the business to Energy Developments, a subsidiary of Duet.
", "units": [ { "code": "CULLRGWF", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 30.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SBSOLAR1_CUNDERDIN_PV", "name": "Cunderdin", "network_id": "WEM", "network_region": "WEM", "description": "The Cunderdin Solar Farm Project is a 128 MW DC photovoltaic solar system developed on the outskirts of Cunderdin, planned over 165ha which includes a 55 MW / 220 MWh battery energy storage system.
", "units": [ { "code": "SBSOLAR1_CUNDERDIN_PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 128.0, "data_first_seen": "2024-08-19T16:15:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DAANDINE", "name": "Daandine", "network_id": "NEM", "network_region": "QLD1", "description": "The Queensland located Arrow Energy's Daandine power station's first electricity production occurred in December 2006 as a result of coal seam methane gas obtained from the nearby Daandine gas field. Prior to the opening of the new power station, ramp up gas from the Daandine field, had been sold to CS Energy.
", "units": [ { "code": "DAANDINE", "fueltech_id": "gas_recip", "status_id": "retired", "capacity_registered": 33.0, "emissions_factor_co2": 0.706, "dispatch_type": "GENERATOR" } ] }, { "code": "DALNTH", "name": "Dalrymple North", "network_id": "NEM", "network_region": "SA1", "description": "The Dalrymple ESCRI battery (Energy Storage for Commercial Renewable Integration) is a 30 MW / 8 MW\u00b7h grid-connected battery array near Stansbury on Yorke Peninsula in South Australia. Its role is to provide improved reliability and stability to the electricity network on Yorke Peninsula and South Australia.
The battery is installed adjacent to the Dalrymple substation, seven kilometres southwest of Stansbury. Dalrymple substation is at the end of a 275 kV power line into the peninsula. It feeds 33 kV lines to various towns across the lower end of the peninsula and receives electricity generated by the Wattle Point Wind Farm.
The facility is able to store excess generation from Wattle Point Wind Farm as well as a colocated solar farm and is expected to provide a similar service to the Hornsdale Power Reserve in the Mid North of the state.The battery was constructed by Consolidated Power Projects with ABB and Samsung components. It was part-funded by a grant from the Commonwealth Government through the Australian Renewable Energy Agency (ARENA). It was commissioned in June and July 2018. It provides frequency control to the grid, and also enables the possibility for Yorke Peninsula to operate independently of the wider grid in the event of a system failure.
Darling Downs Power Station is in Kogan, Western Downs Region, Queensland, Australia. It is 40 kilometres (25 mi) west of Dalby and owned by Origin Energy. The Darling Downs Power Station is adjacent to the QLD-NSW high voltage transmission Interconnector and the Powerlink Queensland R2 Braemar 330/275 kV Substation.
Darling Downs is a gas fired combined cycle gas turbine power station and is the largest of its type in Australia. It is powered by three 120 MW GE Frame 9E gas turbines and one 270 MW steam turbine, which generate a total of 630 MW of electricity. A 205 kilometre pipeline transports the gas to the station from gas fields near Wallumbilla. The power station uses less than 3% of the water that a traditional coal powered power station does by utilising air-cooled technology.Origin Energy developed the power station and the construction costs for the project were $780 million. Darling Downs entered commercial operation in July 2010. and was officially opened on the 5 November 2010 by Premier Anna Bligh.
Darling Downs Solar Farm is a 110MW photovoltaic solar power station in Queensland, Australia developed by APA Group 45 km west of Dalby in the Darling Downs region next to the Darling Downs Power Station. All of the electricity produced will be sold to Origin Energy until 2030. The solar farm connects to the national electricity grid through Powerlink's Braemar substation. It has approximately 430,000 solar panels on an area of approximately 250 hectares (620 acres).The solar farm was planned by Origin Energy which owns the adjacent natural gas Darling Downs Power Station. Origin received planning approval and A$20 million support from the Australian Renewable Energy Agency (ARENA) before selling the project to APA Group in May 2017. designed and built by RCR Tomlinson under an engineering, procurement and construction contract worth approximately A$175 million.Darling Downs Solar Farm was the ninth solar farm to be approved by the Western Downs Regional Council.
", "units": [ { "code": "DDSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 121.0, "data_first_seen": "2018-07-28T11:05:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DARLSF", "name": "Darlington Point", "network_id": "NEM", "network_region": "NSW1", "description": "Darlington Point Solar Far is a photovoltaic power station under development 10 km south of the town of Darlington Point in New South Wales, Australia. It received planning approval and development consent on 7 December 2018, and has a power purchase agreement for supply of 150MW to Delta Energy.
", "units": [ { "code": "DARLSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 324.0, "data_first_seen": "2020-09-03T10:50:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DPNTB", "name": "Darlington Point", "network_id": "NEM", "network_region": "NSW1", "description": "The combined 150MW / 300MWh Riverina and Darlington Point Energy Storage Systems is located adjacent to TransGrid\u2019s Darlington Point Substation in the Murrumbidgee Shire, South West NSW.
", "units": [ { "code": "DPNTBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 25.0, "data_first_seen": "2023-06-23T11:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "DPNTBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 25.0, "data_first_seen": "2023-06-26T15:05:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "DARTM", "name": "Dartmouth", "network_id": "NEM", "network_region": "VIC1", "description": "Designed by the State Electricity Commission of Victoria, and constructed by Lewis Constructions, and commissioned in January 1981, Dartmouth Power Station has one Francis turbine-generator, with a generating capacity of 180 megawatts, the largest single installed hydroelectric turbine in Australia. It is owned and operated by AGL Energy.
", "units": [ { "code": "DARTM1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 185.0, "data_first_seen": "1998-12-07T07:25:00+10:00", "data_last_seen": "2025-07-20T21:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DAYDSF", "name": "Daydream", "network_id": "NEM", "network_region": "QLD1", "description": "Daydream Solar Farm is a photovoltaic power station near Collinsville in Queensland, Australia. It uses a single-axis tracking system to follow the sun across the sky. It was developed by Edify Energy. It generates up to 180MW DC and 150MW AC.
Powerlink upgraded its transmission network to connect the Hayman and Daydream solar farms to the grid.Daydream has a 12-year power purchase agreement to provide electricity to Origin Energy.
The Devils Gate Power Station is a conventional hydroelectric power station located in north-western Tasmania, Australia.
", "units": [ { "code": "DEVILS_G", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 60.0, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DIAPURWF", "name": "Diapur 2", "network_id": "NEM", "network_region": "VIC1", "description": "The wind farm has an output of up to 7.4 MW and connected to the existing 22 kV electricity network via the Nhill substation in Western Victoria. The two Vestas V150 4.0 MW turbines have 125m hub height (tip height 200m) and produce the equivalent energy usage of around 6000 households.
", "units": [ { "code": "DIAPURWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 8.0, "data_first_seen": "2021-11-25T17:25:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DRYCGT", "name": "Dry Creek", "network_id": "NEM", "network_region": "SA1", "description": "Dry Creek Power Station is a power station at Dry Creek in the northern suburbs of Adelaide, South Australia. It is owned and operated by Synergen Power, a joint venture of Engie and Mitsui. The power station has three open cycle gas turbines, each rated at 52MW. It was commissioned in 1973\u20131974 by the Electricity Trust of South Australia.As well as peaking electricity generation, the power station also provides ancillary services to support electricity grid stability. Dry Creek Power Station was established around 1978. It receives gas from the Moomba Adelaide Pipeline System. In 2018, the operators of Dry Creek Power Station were fined A$60,000 for failing to respond to instructions from AEMO during a blackout caused by faults elsewhere in the network.
", "units": [ { "code": "DRYCGT1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 52.0, "emissions_factor_co2": 0.8592, "data_first_seen": "1998-12-08T08:15:00+10:00", "data_last_seen": "2025-06-27T20:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "DRYCGT2", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 52.0, "emissions_factor_co2": 0.8592, "data_first_seen": "1998-12-10T17:45:00+10:00", "data_last_seen": "2025-06-27T20:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "DRYCGT3", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 52.0, "emissions_factor_co2": 0.8592, "data_first_seen": "1998-12-10T17:45:00+10:00", "data_last_seen": "2025-06-27T20:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DULAWF", "name": "Dulacca", "network_id": "NEM", "network_region": "QLD1", "description": "Dulacca Wind Farm is located between the communities of Dulacca and Drillham in the Western Downs Region of Queensland. Construction of Wind Farm commenced in October 2021 and is expected to be completed by Q3 2023.\u200b
", "units": [ { "code": "DULAWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 180.0, "data_first_seen": "2023-04-13T11:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "DUNDWF", "name": "Dundonnell", "network_id": "NEM", "network_region": "VIC1", "description": "Dundonnell Wind Farm is at Dundonnell, 23 kilometres (14 mi) northeast of Mortlake in the Australian state of Victoria. Construction began in January 2019 and was completed in 2020 with 80 Vestas wind turbines with a capacity to generate 336MW of electricity. The drive trains and hubs were assembled at the former Ford Australia site in Geelong.The wind farm is the largest in Victoria, soon to be overtaken by Stockyard Hill. It has contracts to supply 37% of its output to the government of Victoria and 50% to Snowy Hydro. It is being developed by Tilt Renewables. The wind farm connects to the grid via 38 kilometres of 220kV overhead transmission line to a substation near the Mortlake Power Station.A 327 tonne transformer transported at night took four nights to reach Dundonnell from Glen Waverley in eastern Melbourne in August 2019. It was manufactured there by the Wilson Transformer Company. The developer spent $80 million to connect the wind farm to the main 500 kV grid via a 38 km 220 kV Ausnet line, avoiding the connection problems many other generating stations have in the interior. Full commissioning was delayed in mid-2020 due to concerns of the Australian Energy Market Operator (AEMO), despite it being commissioned according to a plan negotiated with AEMO in 2018.
", "units": [ { "code": "DUNDWF3", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 121.0, "data_first_seen": "2020-03-11T13:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "DUNDWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 168.0, "data_first_seen": "2020-04-30T18:15:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "DUNDWF2", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 46.0, "data_first_seen": "2020-03-11T17:45:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PMATTAEP", "name": "Earthpower", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "PMATTAEP", "fueltech_id": "gas_recip", "status_id": "retired", "capacity_registered": 4.0, "emissions_factor_co2": 0.22, "dispatch_type": "GENERATOR" } ] }, { "code": "EASTCRK", "name": "Eastern Creek", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "EASTCRK", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 5.0, "emissions_factor_co2": 0.0719, "dispatch_type": "GENERATOR" } ] }, { "code": "EASTCRK2", "name": "Eastern Creek 2", "network_id": "NEM", "network_region": "NSW1", "description": "This facility is owned and operated by LMS in partnership with Waste Assets Management Corporation and has an installed capacity of 4.5MW.
", "units": [ { "code": "EASTCRK2", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 8.98, "emissions_factor_co2": 0.0716, "dispatch_type": "GENERATOR" } ] }, { "code": "EDENVSF", "name": "Edenvale", "network_id": "NEM", "network_region": "QLD1", "description": "The Edenvale Solar Park project (the Project) is a 204 megawatt solar farm under construction in the Western Downs region of Queensland.
", "units": [ { "code": "EDENVSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 180.0, "data_first_seen": "2023-02-18T13:55:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "EILDON", "name": "Eildon", "network_id": "NEM", "network_region": "VIC1", "description": "The Eildon Dam or Eildon Weir, a rock and earth-fill embankment dam with a controlled spillway across the Goulburn River, is located between the regional towns of Mansfield and Eildon within Lake Eildon National Park, in the Alpine region of Victoria, Australia. The dam's purpose is for the supply of potable water, irrigation, and the generation of hydroelectricity. The impounded reservoir is called Lake Eildon.
", "units": [ { "code": "EILDON2", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 60.0, "data_first_seen": "1998-12-07T06:40:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "EILDON1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 60.0, "data_first_seen": "1998-12-07T06:40:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "EILDONPD", "name": "Eildon", "network_id": "NEM", "network_region": "VIC1", "description": "The Eildon Pondage Power Station is a hydroelectric power station on the Eildon Pondage at Lake Eildon, Victoria, Australia. Eildon Pondage has one turbo generator, with a total generating capacity of 4.5 megawatts (6,000 hp) of electricity. It is owned and operated by Pacific Hydro, and the electricity produced is sold to electricity retailer TXU.Eildon Pondage re-uses the water from Eildon Power Station, which is stored in the pondage to ensure a controlled release into the Goulburn River downstream from Lake Eildon.
", "units": [ { "code": "EILDON3", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 4.5, "dispatch_type": "GENERATOR" } ] }, { "code": "ELAINEWF", "name": "Elaine", "network_id": "NEM", "network_region": "VIC1", "description": "Lal Lal Wind Farms, which consists of the adjacent Yendon and Elaine sites, are located approximately 10km southeast of Ballarat, Victoria in the area originally inhabited by the Wathaurong people and consist of 60 x 3.8MW turbines in total.
Elaine Wind Farm comprises 22 wind turbines and connects to the 220kV network via the Elaine Terminal Station.
", "units": [ { "code": "ELAINWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 83.6, "data_first_seen": "2020-04-07T04:25:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "EMERASF", "name": "Emerald", "network_id": "NEM", "network_region": "QLD1", "description": "Emerald Solar Park is a photovoltaic solar power station near Emerald in Queensland, Australia. It was developed by RES Australia who then sold it to Lighthouse Solar Fund. It delivers up to 72 MW AC of electricity to the National Electricity Market. The entire production of the solar farm is contracted to be supplied to Telstra.
", "units": [ { "code": "EMERASF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 88.0, "data_first_seen": "2018-09-20T13:20:00+10:00", "data_last_seen": "2025-07-21T17:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "EDWFMAN", "name": "Emu Downs", "network_id": "WEM", "network_region": "WEM", "description": "Emu Downs Solar Farm is a solar farm adjacent to Emu Downs Wind Farm in Western Australia, Australia. It was developed and is owned by APA Group. At the time of its completion in 2018, it was the largest solar farm in Western Australia.When APA group bought Emu Downs Wind Farm in June 2011, it realised that there is usually a drop in output in the middle of the day as the wind changes from easterly in the morning to the westerly Fremantle Doctor in the afternoon. To balance that and achieve better utilisation of transmission infrastructure, APA installed a 20MW solar farm on an adjacent site. The solar farm's peak output is during the time when the wind farm is not at full capacity, so no additional capacity was needed in the substation or grid connection point. The solar farm has 75,000 photovoltaic solar panels on a 70-hectare site east of the wind farm. It cost A$50 million (including a federal government grant of A$5.5 million) and began operation in December 2017. The output of both the solar and wind farms is contracted to Synergy until 2030.
", "units": [ { "code": "EDWFMAN_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 79.2, "data_first_seen": "2013-12-17T09:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "ENERGYB", "name": "Energy Brix", "network_id": "NEM", "network_region": "VIC1", "description": "The Energy Brix Power Station was a brown coal\u2013fired thermal power station located at Morwell, in Victoria, Australia. The power station was used to supply electricity for the retail market, as well as the production of briquettes in the adjacent Energy Brix briquette works. It was shut down in August 2014 and is currently the earliest surviving large-scale power station designed to provide electricity to the state electricity network.
", "units": [ { "code": "MOR3", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 75.0, "emissions_factor_co2": 1.6487, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2015-01-06T15:20:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MOR1", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 90.0, "emissions_factor_co2": 1.6487, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2015-07-27T03:20:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MOR2", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 30.0, "emissions_factor_co2": 1.6487, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2014-09-04T11:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "ERARING", "name": "Eraring", "network_id": "NEM", "network_region": "NSW1", "description": "Eraring Power Station is a coal fired electricity power station with four 720 MW Toshiba steam driven turbo-alternators for a combined capacity of 2,880 MW. The station is located near the township of Dora Creek, on the western shore of Lake Macquarie, New South Wales, Australia and is owned and operated by Origin Energy. It is Australia's largest power station. The plant has two smokestacks rising 200 m (656 ft) in height.
", "units": [ { "code": "ER01", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 720.0, "emissions_factor_co2": 0.892, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ER02", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 720.0, "emissions_factor_co2": 0.892, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ER03", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 720.0, "emissions_factor_co2": 0.892, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ER04", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 720.0, "emissions_factor_co2": 0.892, "data_first_seen": "1998-12-07T09:30:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "ERB", "name": "Eraring", "network_id": "NEM", "network_region": "NSW1", "description": "The Eraring BESS will support further renewable project development by charging during the day when renewable energy sources like solar generation is plentiful and discharging into the grid during peak periods.
Locating a battery at Eraring also takes advantage of the existing transmission infrastructure, minimising the need for construction of long transmission lines.
All three stages of the Eraring BESS are now under construction. Stage one and three have a capacity of 460MW with a dispatch duration of four hours and are scheduled to come online in the final quarter of 2025. The second stage of the battery is scheduled to come online in the first quarter of 2027, adding a further 240MW with a dispatch duration of four hours.
The combined energy storage of all stages of the battery will be 2.8 GWh, enabling Origin to help keep the grid stable and support more variable renewable energy coming into the system.
", "units": [ { "code": "ERBG01", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 614.6, "data_first_seen": "2025-03-13T09:25:00+10:00", "data_last_seen": "2025-07-21T14:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ERBL01", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 614.6, "data_first_seen": "2025-03-08T04:15:00+10:00", "data_last_seen": "2025-07-21T16:05:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "ERGT01", "name": "Eraring", "network_id": "NEM", "network_region": "NSW1", "description": "Eraring Power Station is a coal fired electricity power station with four 720 MW Toshiba steam driven turbo-alternators for a combined capacity of 2,880 MW. The station is located near the township of Dora Creek, on the western shore of Lake Macquarie, New South Wales, Australia and is owned and operated by Origin Energy. It is Australia's largest power station. The plant has two smokestacks rising 200 m (656 ft) in height.", "units": [ { "code": "ERGT01", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 41.5, "emissions_factor_co2": 0.706, "data_first_seen": "2013-05-28T08:00:00+10:00", "data_last_seen": "2024-12-17T20:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0ERB2", "name": "Eraring 2", "network_id": "NEM", "network_region": "NSW1", "description": "The Eraring BESS will support further renewable project development by charging during the day when renewable energy sources like solar generation is plentiful and discharging into the grid during peak periods.
Locating a battery at Eraring also takes advantage of the existing transmission infrastructure, minimising the need for construction of long transmission lines.
All three stages of the Eraring BESS are now under construction. Stage one and three have a capacity of 460MW with a dispatch duration of four hours and are scheduled to come online in the final quarter of 2025. The second stage of the battery is scheduled to come online in the first quarter of 2027, adding a further 240MW with a dispatch duration of four hours.
The combined energy storage of all stages of the battery will be 2.8 GWh, enabling Origin to help keep the grid stable and support more variable renewable energy coming into the system.
", "units": [ { "code": "0ERB2L1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 240.0, "dispatch_type": "LOAD" }, { "code": "0ERB2G1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 240.0, "dispatch_type": "GENERATOR" } ] }, { "code": "FWF", "name": "Ferguson", "network_id": "NEM", "network_region": "VIC1", "description": "Ferguson Wind Farm has an output of 10.8 MW and is connected to the existing 22 kV electricity network in the southwest Victoria via two separate connection points (Ferguson North 3.6 MW and Ferguson South 7.2 MW). It consists of three Vestas V136 4.0 MW turbines that have a rotor diameter of 136m, a tip height of 200m and together produce the equivalent energy usage of around 7,500 households.
", "units": [ { "code": "FNWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 4.0, "dispatch_type": "GENERATOR" }, { "code": "FSWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 8.0, "dispatch_type": "GENERATOR" } ] }, { "code": "FINLEYSF", "name": "Finley", "network_id": "NEM", "network_region": "NSW1", "description": "Finley Solar Farm is a photovoltaic power station near Finley in New South Wales, Australia. It was developed at a cost of A$170 million by ESCO Pacific in 2019 and built and commissioned by Signal Energy Australia Pty Ltd. ESCO sold the project to John Laing Group on 12 November 2018 at the same time as Westpac and ANZ Banks committed to the debt funding for the development.The solar farm has a seven-year power purchase agreement to supply electricity to Bluescope Steel.
", "units": [ { "code": "FINLYSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 162.36, "data_first_seen": "2019-08-02T09:00:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "FISHER", "name": "Fisher", "network_id": "NEM", "network_region": "TAS1", "description": "Water from Lake Mackenzie flows through canals, tunnels and pipes to the Fisher Power Station. The water drops 650 metres to Fisher then runs into Lake Parangana.
", "units": [ { "code": "FISHER", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 43.2, "data_first_seen": "2005-05-16T20:45:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "FLATROCKS", "name": "Flat Rocks", "network_id": "WEM", "network_region": "WEM", "description": "The Flat Rocks Wind Farm Stage 1 Project will consist of the construction and operation of\u00a018\u00a0wind turbines \u00a0and the related civil and electrical infrastructure. The project site spans the shires of Kojonup and Broomehill-Tambellup, in the\u00a0Great Southern Region\u00a0of Western\u00a0Australia. Construction of the project commenced in 2022 and it\u2019s anticipated for the project to be fully operational in 2024.
The construction of the Flat Rocks\u00a0Wind Farm\u00a0Stage 1 has an investment value of over $200 million. The estimated construction timeframe for the plant is expected to be approximately 18 months while the plant's operational life is estimated at approximately 30 years.
", "units": [ { "code": "FLATROCKS_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 75.6, "data_first_seen": "2023-11-26T12:05:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "FLYCRKWF", "name": "Flyers Creek", "network_id": "NEM", "network_region": "NSW1", "description": "Flyers Creek Wind Farm is a 145-Megawatt project owned by Iberdrola Australia. The wind farm site is located approximately 20 kilometres south of Orange in the Blayney and Cabonne Local Government Areas in the Central West region of New South Wales.
", "units": [ { "code": "FLYCRKWF", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 145.0, "data_first_seen": "2023-09-20T11:00:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0FULHAMSF", "name": "Fulham", "network_id": "NEM", "network_region": "VIC1", "description": "The Fulham Project is a proposed solar farm of 80 megawatts (enough to power around 25,000 homes) with battery storage of up to 120 megawatt hours to be located on 400 acres of farmland adjacent to the north west corner of the Hopkins Road and McLarens Road intersection, Fulham (within the Wellington Shire). The solar farm is planned to co-exist with existing grazing activities on the site.
", "units": [ { "code": "0FULHAMSF1", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 80.0, "dispatch_type": "GENERATOR" }, { "code": "0FULHAML1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 64.0, "dispatch_type": "LOAD" }, { "code": "0FULHAMG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 64.0, "dispatch_type": "GENERATOR" } ] }, { "code": "GANGARR", "name": "Gangarri", "network_id": "NEM", "network_region": "QLD1", "description": "The 120MW solar farm is located in Woleebee, not far from the town of Wandoan in the Western Downs region of Queensland and is being built on land owned by Shell\u2019s QGC business. The project is expected to be completed in early 2021.
", "units": [ { "code": "GANGARR1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 162.0, "data_first_seen": "2021-09-21T11:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GANNBESS", "name": "Gannawarra", "network_id": "NEM", "network_region": "VIC1", "description": "Gannawarra Energy Storage System (GESS) is a grid-connected energy storage system adjacent to the Gannawarra Solar Farm in Wandella in the Shire of Gannawarra, 14km west of Kerang.
The Gannawarra Energy Storage System was partially funded by grants from the Australian Renewable Energy Agency and the Victorian Government. It is owned by Wirsol and Edify Energy and operated by EnergyAustralia. The batteries were provided by Tesla, Inc. and Engineering, procurement and construction was provided by RCR Tomlinson. It helps to ease the demand on a constrained transmission line and balances higher levels of renewable energy on the grid. It first exported electricity to the grid in October 2018.
Gannawarra Solar Farm is a photovoltaic solar power station in the Gannawarra Shire, 13 kilometres (8.1\u00a0mi) west of Kerang in the Australian state of Victoria. It generates up to 60\u00a0MWdc electricity and exports up to 50.61\u00a0MWAC to the National Electricity Market at 66\u00a0kV.
", "units": [ { "code": "GANNSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 55.0, "data_first_seen": "2018-04-06T12:20:00+10:00", "data_last_seen": "2025-07-21T17:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GEORGTWN", "name": "George Town", "network_id": "NEM", "network_region": "TAS1", "description": "Tempo
Tempo
", "units": [ { "code": "GEORGTN2", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 17.0, "emissions_factor_co2": 0.972, "data_first_seen": "2016-03-28T17:40:00+10:00", "data_last_seen": "2016-05-01T08:20:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "GEORGTN1", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 17.0, "emissions_factor_co2": 0.972, "data_first_seen": "2016-03-30T17:15:00+10:00", "data_last_seen": "2016-05-01T08:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TESLA_GERALDTON", "name": "Geraldton", "network_id": "WEM", "network_region": "WEM", "description": "Commissioned in 2012, Geraldton is located immediately adjacent to the Geraldton Airport.
", "units": [ { "code": "TESLA_GERALDTON_G1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 10.0, "emissions_factor_co2": 0.97, "data_first_seen": "2013-12-19T08:30:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GERMCRK", "name": "German Creek", "network_id": "NEM", "network_region": "QLD1", "description": "The power station consists of sixteen 2MW power generation modules using Caterpillar 3520C generator sets and four 3.3MW power generating modules using Jenbacher J620 generator sets.
", "units": [ { "code": "GERMCRK", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 45.0, "emissions_factor_co2": 0.5657, "data_first_seen": "2013-07-18T10:20:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GIRGSF", "name": "Girgarre", "network_id": "NEM", "network_region": "VIC1", "description": "The Girgarre Solar Farm Project will consist of the construction and operation of approximately 169,500 photovoltaic (PV)\u00a0modules and the related civil and electrical infrastructure. The Project is in the Shire of Campaspe, in Victoria, Australia. The site is located approximately 10 km north-west of Stanhope and approximately 50km west of Shepparton.
The construction of the Girgarre Solar Farm has an investment value of over $140 million. The estimated construction timeframe for the plant is expected to be approximately 18 months, while the plant's operational life is estimated at approximately 35 years.
", "units": [ { "code": "GIRGSF", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 93.31, "data_first_seen": "2024-07-20T10:30:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GSTONE", "name": "Gladstone", "network_id": "NEM", "network_region": "QLD1", "description": "The Gladstone Power Station is a power station at Callemondah, Gladstone, Queensland, Australia. It is Queensland's largest power station, with six coal powered steam turbines generating a maximum of 1,680 MW of electricity. Power from the station was first generated in 1976.
This fossil fuel power plant draws seawater for cooling. Black coal is brought by rail from the Curragh coal mine, 200 kilometres (120 mi) west of Rockhampton.
Glenbawn Power Station was built in 1995 within the Glenbawn Dam wall structure on the Hunter River about 15 kilometres south-east of Scone in New South Wales and has a maximum generation capacity of 5.5 MW. Glenbawn power station typically generates power using summer irrigation and flood mitigation flows.
Glenbawn Dam's storage capacity is approximately 750 GL with only small demands from other uses, enabling water releases for the power station on a regular basis.
The Glenellen project will have an installed capacity of 260 MWp and will be located in Greater Hume (New South Wales). The plant will generate energy with its 370,000 solar modules. The project is currently in the development phase, and commercial operations are scheduled to begin in 2025.
", "units": [ { "code": "0GLENELLEN", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 260.0, "dispatch_type": "GENERATOR" } ] }, { "code": "GLENMAGG", "name": "Glenmaggie", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "GLENMAG1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 3.8, "dispatch_type": "GENERATOR" } ] }, { "code": "GLENNCRK", "name": "Glennies Creek", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "GLENNCRK", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 12.78, "emissions_factor_co2": 0.526, "dispatch_type": "GENERATOR" } ] }, { "code": "GLENSF", "name": "Glenrowan", "network_id": "NEM", "network_region": "VIC1", "description": "The Glenrowan Solar Farm is a 130MWac solar project located 2km south-west of Glenrowan, in the Rural City of Wangaratta, approximately 230 kilometres north-east of Melbourne, Victoria.
The location sits within Victoria\u2019s Central North Renewable Energy Zone (REZ), one of six across the state supporting the Victorian Government\u2019s Renewable Energy Target (VRET) of 50% by 2030 and the transition to a carbon-neutral future.
", "units": [ { "code": "GLENSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 126.0, "data_first_seen": "2023-11-21T09:25:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GLRWNSF", "name": "Glenrowan West", "network_id": "NEM", "network_region": "VIC1", "description": "Glenrowan West Solar Farm will be a single axis tracking project, located just off the Hume Freeway, between Benalla and Wangaratta, 11km south-west of the town of Glenrowan in Victoria. The site is designed to have an installed capacity of approx. 149-megawatt peak (MWp) DC which covers 323 hectares of land and has commenced early stage construction as of February 2020.
", "units": [ { "code": "GLRWNSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 132.0, "data_first_seen": "2020-12-22T07:25:00+10:00", "data_last_seen": "2025-07-21T17:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GPWFEST", "name": "Golden Plains East", "network_id": "NEM", "network_region": "VIC1", "description": "Golden Plains Wind Farm \u2013 East commenced construction in 2023. The project involves the establishment of the first stage of a wind energy facility including 122 wind turbines and associated electrical infrastructure to the west, south and south-west of Rokewood. Rokewood is a small rural town in the Shire of Golden Plains located approximately 60 km north-west of Geelong.\u00a0
", "units": [ { "code": "GPWFEST3", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 248.0, "data_first_seen": "2025-05-30T10:00:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "GPWFEST2", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 260.4, "data_first_seen": "2024-08-21T11:45:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "GPWFEST1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 248.0, "data_first_seen": "2024-09-18T14:00:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0GPWFWST", "name": "Golden Plains West", "network_id": "NEM", "network_region": "VIC1", "description": "Golden Plains Wind Farm \u2013 West involves the establishment of the second stage of a wind energy facility including wind turbines and associated electrical infrastructure to the west, south and south-west of\u00a0Rokewood, a small rural town in the Shire of Golden Plains, approximately 60 km north-west of Geelong
", "units": [ { "code": "0GPWFWST1", "fueltech_id": "wind", "status_id": "committed", "capacity_registered": 557.0, "dispatch_type": "GENERATOR" } ] }, { "code": "GOONUMSF", "name": "Goonumbla", "network_id": "NEM", "network_region": "NSW1", "description": "Goonumbla Solar Farm is a 83.70 MW dc PV plant located approximately 10km west of the town of Parkes and 280km North West of Sydney in New South Wales.
The plant consists of approximately 270,000 solar panels installed across the 385-hectare site.
", "units": [ { "code": "GOONSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 85.0, "data_first_seen": "2020-05-12T13:00:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0GOORESF", "name": "Goorambat", "network_id": "NEM", "network_region": "VIC1", "description": "The Goorambat East Solar Farm is a renewable energy development located about 12 kilometres north of Benalla and just south of the Goorambat township in Victoria, on the land of the Yorta Yorta people.
ENGIE entered into a commercial arrangement with Neoen to purchase the project in 2023 and have been progressing steadily towards construction.
The site is approximately 630 hectares across five private rural properties in the Benalla Rural City Council local government area and is primarily accessible from the Goorambat-Chesney Road, Spinks Lane and Saunders Road.
", "units": [ { "code": "0GOORESF1", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 250.0, "dispatch_type": "GENERATOR" } ] }, { "code": "GORDON", "name": "Gordon", "network_id": "NEM", "network_region": "TAS1", "description": "The Gordon Power Station is the largest conventional hydroelectric power station in Tasmania, Australia; located in the South West region of the state. The power station is situated on Gordon River. Water from Lake Gordon descends 183 metres (600 ft) underground past the Gordon Dam and into the power station.
", "units": [ { "code": "GOVILLB1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 25.0, "dispatch_type": "GENERATOR" }, { "code": "GORDON", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 432.0, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GOSNELLS", "name": "Gosnells", "network_id": "WEM", "network_region": "WEM", "description": "", "units": [ { "code": "GOSNELLS", "fueltech_id": "bioenergy_biogas", "status_id": "retired", "capacity_registered": 1.0, "emissions_factor_co2": 0.057, "data_first_seen": "2006-11-17T00:00:00+10:00", "data_last_seen": "2023-03-19T23:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0GRIVSF", "name": "Goulburn River", "network_id": "NEM", "network_region": "NSW1", "description": "The Goulburn River project consists of a 585 MWp solar farm and battery energy storage system (BESS), located between Wollar and Merriwa, on Wollara Road, in the Upper Hunter Region of NSW.
Lightsource bp will construct and operate the project and deliver renewable energy to Australia\u2019s grid. The project includes a battery to shift renewable energy to night-time peaks and support the reliable operation of Australia\u2019s grid. The project will also include operation and maintenance buildings, a temporary onsite workers accommodation camp, and electrical infrastructure required to connect to the existing electricity network.
", "units": [ { "code": "0GRIVSF1", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 588.0, "dispatch_type": "GENERATOR" } ] }, { "code": "GSWF", "name": "Goyder South", "network_id": "NEM", "network_region": "SA1", "description": "Goyder South Wind Farm is the first stage of the Goyder Renewables Zone development near Burra, South Australia. The Goyder South Wind Farm will be on the hills south-east of the town of Burra.
Early construction works for stage 1 began in December 2021. The project is owned by Neoen and the construction contract was awarded to a consortium of GE Renewable Energy and Elecnor.
Granville Harbour Wind Farm is a wind farm project being developed and constructed by Palisade Investment Partners, on the west coast of Tasmania, Australia.
The facility first generated to the grid on 27th February 2020 with the completion of its first turbine. When finished, the wind farm will have 31 wind turbines and have a maximum capacity of 112 MW. It is located on a site 35 kilometres (22 mi) northwest of Zeehan, Tasmania.Considerations are underway for a second Bass Strait interconnector to increase Tasmania's electricity export capacity.
Albany wind and Grasmere farms are two wind power stations near Albany, Western Australia, owned by Bright Energy Investments. They are adjacent and are often considered a single facility. They have 18 wind turbines, with a maximum generating capacity of 35.4\u00a0MW of electricity. The original Albany Wind Farm was commissioned in October 2001, after ten years of planning. The wind farm has the capacity to produce 80 per cent of the electricity requirements of Albany.
", "units": [ { "code": "GRASMERE_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 13.8, "data_first_seen": "2013-12-18T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GREENB", "name": "Greenbank", "network_id": "NEM", "network_region": "QLD1", "description": "CS Energy is developing a large-scale battery in Greenbank, a suburb within the Logan City Council area, to develop cleaner and more reliable energy for Queenslanders.
The Greenbank Battery will have a discharge capacity of 200 megawatts and store 400 megawatt hours of energy (200MW/400MWh) - enough to power 66,000 homes for two hours in the evening peak before needing to recharge.
It will use lithium iron phosphate (also known as lithium ferro phosphate [LFP], or LiFePO4) batteries, which are the safest lithium batteries currently available.
", "units": [ { "code": "GREENB1L1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 259.2, "data_first_seen": "2025-02-11T21:50:00+08:00", "data_last_seen": "2025-07-21T21:10:00+08:00", "dispatch_type": "LOAD" }, { "code": "GREENB1G1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 259.2, "data_first_seen": "2025-02-13T15:10:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GREENOUGH_RIVER", "name": "Greenough River", "network_id": "WEM", "network_region": "WEM", "description": "The Greenough River Solar Farm is a 10 megawatt (MW) photovoltaic power station located in Walkaway, Western Australia. When it opened in October, 2012, it was the country's first utility-scale solar farm. It remained Australia's largest solar PV system until 2014, when it was superseded by the 20 MW Royalla solar farm in Canberra. The Greenough River Solar Farm was built by Verve Energy and joint venture partners GE Financial Services. It uses over 150,000 thin film modules based on CdTe-PV technology provided by U.S. company First Solar. Its exact location is at Nangetty Walkaway Road, Walkaway, 50 kilometres southeast of Geraldton and covers an area of 80 hectares (200 acres).The solar farm has been owned by Bright Energy investments since April 2018. It is currently undergoing and expansion to increase capacity by a further 30MW and RCR Tomlinson was awarded a $60 million engineering, construction and procurement contract for expansion, The expansion project is expected to be complete by mid 2019.
", "units": [ { "code": "GREENOUGH_RIVER_PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 40.0, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-13T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GRIFSF", "name": "Griffith", "network_id": "NEM", "network_region": "NSW1", "description": "Initial development started in 2013 with the land lease signed in November 2013. Government Planning Approvals was achieved in Jun 2016. Construction started in Jan 2017 and was completed in April 2018. It has been operational ever since.
Griffith Solar Farm is one of 12 successful projects that received funding from the Australian Renewable Energy Agency (ARENA) in 2016.
", "units": [ { "code": "GRIFSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 27.2, "data_first_seen": "2018-04-20T15:35:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GROSV1", "name": "Grosvenor 1", "network_id": "NEM", "network_region": "QLD1", "description": "The Grosvenor Power Station, located in Moranbah, Queensland, is operated by EDL. It generates electricity by capturing and converting waste coal mine gas (methane), which is released during coal mining operations. This process not only provides reliable energy but also significantly reduces greenhouse gas emissions by repurposing what was once a waste product. The station has a capacity of 21.3 MW, powers around 22,800 homes annually, and avoids approximately 100,500 tonnes of CO2 emissions each year.
", "units": [ { "code": "GROSV1", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 21.0, "emissions_factor_co2": 0.5563, "dispatch_type": "GENERATOR" } ] }, { "code": "GROSV2", "name": "Grosvenor 2", "network_id": "NEM", "network_region": "QLD1", "description": "EDL negotiated gas supply and connection agreements with Anglo American to develop and build the 21 MW Grosvenor Power Station in 2015. These agreements were updated in 2017 to include a 15MW expansion at Grosvenor 2.
", "units": [ { "code": "GROSV2", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 15.0, "emissions_factor_co2": 0.5717, "dispatch_type": "GENERATOR" } ] }, { "code": "GULLRGWF", "name": "Gullen Range", "network_id": "NEM", "network_region": "NSW1", "description": "Gullen Range Wind Farm is a wind farm in the Southern Tablelands region of New South Wales, Australia. It consists of 73 wind turbines and produces up to 165.5MW of electricity. It is owned by BJCE Australia and built and operated by Goldwind Australia. Gullen Range was BJCE Australia's first wind farm, when it bought the project in 2014.The wind farm consists of two different turbine models, both manufactured by Goldwind. There are 56 GRW100-2.5MW turbines with a 100m diameter on 80m towers (total height 130m) which generate 2.5MW of electricity. There are also 17 smaller GW82-1.5MW turbines with 82m diameter on 85m towers (total height 126m) which produce 1.5MW of electricity.The project was developed by Epuron, who sold it to Goldwind Australia before construction. Goldwind began construction in 2012. It began generating electricity in 2013 and was fully operational by 23 December 2014. Goldwind onsold 75% of the project to BJCE Australia.
", "units": [ { "code": "GULLRSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 10.0, "data_first_seen": "2017-08-22T10:15:00+10:00", "data_last_seen": "2025-07-21T16:50:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "GULLRWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 165.0, "data_first_seen": "2013-12-10T18:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GNNDHSF", "name": "Gunnedah", "network_id": "NEM", "network_region": "NSW1", "description": "Gunnedah Solar Farm, located near Gunnedah \u2013 west of Tamworth in regional New South Wales. The 154MW Project will accommodate a large scale solar PV system utilising single-axis tracking, ground mounted panels which will generate energy throughout the day, when it is needed most. Single-axis tracking has been selected for this project to harness the highest amount of solar irradiance as the panels will track the sun\u2019s movement east to west each day.
", "units": [ { "code": "GNNDHSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 144.0, "data_first_seen": "2021-06-29T10:55:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "GUNNING", "name": "Gunning", "network_id": "NEM", "network_region": "NSW1", "description": "The Gunning Wind Farm project is a wind farm development in the Cullerin Range, north-east of Gunning, in New South Wales. Wind turbines in the farm are visible from the Hume Highway.
The Gunning Wind Farm comprises an electrical substation and operation and maintenance facilities plus 31 turbines which send power to the substation via 17km of underground cabling.
A 14km-long 132kV transmission line was constructed to connect the wind farm to the 132kV Yass-Goulburn transmission line. Turbines generate electricity at 12kV which travels via underground cables to the substation where it is stepped up to 132kV to match the grid voltage.
Construction began in April 2010 and created about 100 jobs, bringing significant economic activity to the Gunning region. The wind farm was completed in May 2011.
A great deal of work was done prior to development of the wind farm. Technical studies identified constraints and the best design, with independent consultants engaged to report on:
flora and fauna
cultural heritage
traffic and transport
geology and hydrology
landscape and visual amenity
soundThe wind farm is capable of producing 46.5MW of clean, renewable energy.
Each of the 1.5MW turbines at the Gunning Wind Farm can provide sufficient renewable energy to power approximately 750 homes and save more than 5,250 tonnes of greenhouse gas emissions a year.
The 31 turbines can power 35,000 homes annually and save more than 162,750 tonnes of greenhouse gases a year.
ACCIONA Energy [1] has established a Community Benefit Fund to deliver tangible benefits to the local community. This initiative will run for the life of the project (25 years).
The Fund support services, events and projects which directly and indirectly benefit the community in the vicinity.
ACCIONA Energy also provides sponsorship support to local groups and events.
Located in South West Queensland near the township of Goondiwindi, Gunsynd Solar Farm will generate up to 94MW of electricity and 20MW of battery storage that will supply the full township of Goondiwindi and inject into the QLD/NSW electricity grid via the Powerlink Bulli Creek 330/132kV Substation.
Guthega Power Station is located in the Snowy Mountains region of New South Wales, Australia. The power station's purpose is for the generation of electricity. It is the first to be completed and smallest of the initial seven hydroelectric power stations that comprise the Snowy Mountains Scheme, a vast hydroelectricity and irrigation complex constructed in south-east Australia between 1949 and 1974 and now run by Snowy Hydro.This station is connected to the National Electricity Market via the TransGrid 330/132KV Substation @ the TransGrid 330KV Murray Switching Station, 1.56 kilometres (1.71 mi) South East of Khancoban.
", "units": [ { "code": "GUTHEGA", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 60.0, "data_first_seen": "2001-07-16T07:40:00+10:00", "data_last_seen": "2025-07-21T20:40:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SNOWY3", "fueltech_id": "hydro", "status_id": "retired", "capacity_registered": 60.0, "data_first_seen": "1998-12-07T04:15:00+10:00", "data_last_seen": "2001-05-27T23:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HLMSEW01", "name": "Hallam", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "HLMSEW01", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 1.0, "dispatch_type": "GENERATOR" } ] }, { "code": "HALAMRD", "name": "Hallam Road", "network_id": "NEM", "network_region": "VIC1", "description": "This facility is owned and operated by LMS in partnership with SUEZ Recycling & Recovery and has an installed capacity of 9.0MW.
", "units": [ { "code": "HALAMRD1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 9.0, "emissions_factor_co2": 0.0717, "dispatch_type": "GENERATOR" } ] }, { "code": "AGLHAL", "name": "Hallett", "network_id": "NEM", "network_region": "SA1", "description": "Hallett Power Station is located in Canowie, in the Mid North of South Australia, located about 210 kilometres (130 mi) north of Adelaide. It was commissioned in 2001 and opened in 2002. It was built by AGL Energy, but was sold in 2007, and is currently operated by EnergyAustralia. It has capacity of approximately 200 megawatts (270,000 hp), and connects to the National Electricity Grid. It contains 12 gas turbine generators.The powerstation is fuelled by natural gas drawn from the Moomba Adelaide Pipeline System, and can also operate from a back-up supply of diesel in the event of a failure of the gas supply. It was built using second-hand gas turbines. These are all General Electric (GE) Frame 5 units, manufactured under licence by John Brown, AEG and Nuovo Pignone.
", "units": [ { "code": "AGLHAL", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 217.0, "emissions_factor_co2": 0.729, "data_first_seen": "2002-01-03T15:55:00+10:00", "data_last_seen": "2025-07-21T19:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HALLWF", "name": "Hallett 1", "network_id": "NEM", "network_region": "SA1", "description": "Hallett 1 is a 45 turbine, 94.5MW operating wind farm, located approximately 180km north of Adelaide, South Australia. The wind farm has been operational since 2008 and its electricity and green outputs are contracted to AGL under a long-term offtake agreement
", "units": [ { "code": "HALLWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 95.0, "data_first_seen": "2007-12-19T05:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HALLWF2", "name": "Hallett 2", "network_id": "NEM", "network_region": "SA1", "description": "Hallett Hill Wind Farm, also known as Hallett 2 Wind Farm, was completed in late 2009. It consists of 34 Suzlon turbines each 2.1MW, giving an installed capacity of 71.4MW. Up to March 2011 it was averaging a capacity factor of 39%.
", "units": [ { "code": "HALLWF2", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 71.4, "data_first_seen": "2009-05-12T14:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HAMISF", "name": "Hamilton", "network_id": "NEM", "network_region": "QLD1", "description": "The Hamilton Solar Farm is a solar farm at Collinsville in North Queensland, Australia. The power station can generate 69 megawatts of power. It is owned and operated by Gentari. The site covers 330 hectares. It is co-located with the WhitSunday Solar Farm and the Daydream Solar Farm.
Power from the station is bought by ERM.
", "units": [ { "code": "HAMISF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 57.5, "data_first_seen": "2018-07-10T12:40:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HAMPTON", "name": "Hampton", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "HAMPTON", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 1.32, "dispatch_type": "GENERATOR" } ] }, { "code": "HVWW", "name": "Happy Valley", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "HVWWPV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 11.0, "data_first_seen": "2022-06-15T15:55:00+10:00", "data_last_seen": "2025-07-21T18:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "HVWWBA1G", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 5.52, "data_first_seen": "2022-06-07T13:15:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "HVWWBA1L", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 5.52, "data_first_seen": "2022-06-07T12:35:00+10:00", "data_last_seen": "2025-07-21T21:05:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "HASTING", "name": "Hastings", "network_id": "NEM", "network_region": "VIC1", "description": "Esso Australia and Woodside Energy, the other Gippsland Basin Joint Venture participant, are planning a project to install three small, modern, efficient ethane power generation units at the Long Island Point plant.
These will be capable of converting ethane into 35-40 megawatts of electricity to power Victorian homes, while ensuring we can maintain our reliable supply of natural gas and natural gas liquids across the east coast.
Located in North Queensland\u2019s Burdekin Shire (40km west of Ayr and 60km south of Townsville), Haughton Solar Farm is a large-scale solar photovoltaic power station. The solar farm is being built in stages with the first 100MW of the project opened in 2019. Once all stages are complete, Haughton Solar Farm is expected to have a generating capacity of up to 500MW.
", "units": [ { "code": "HAUGHT11", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 132.0, "data_first_seen": "2019-05-28T09:35:00+10:00", "data_last_seen": "2025-07-21T17:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HD1WF", "name": "Hawkesdale", "network_id": "NEM", "network_region": "VIC1", "description": "The Hawkesdale Wind Farm site is located in South-Western Victoria near the township of Hawkesdale, 30km north-west of Warrnambool, and 175km west of Geelong, within the Moyne Shire Local Government Area.
The project covers an area of approximately 2,280 ha, where the current land use is primarily agricultural activities including grazing of sheep and cattle.
The windfarm comprises 23 turbines with a total output of approximately 97MW. It will connect to the grid via a 132kV overhead transmission circuit to the existing 500kV Tarrone Terminal Station.
", "units": [ { "code": "HD1WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 94.6, "data_first_seen": "2024-06-17T08:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HAYMSF", "name": "Hayman", "network_id": "NEM", "network_region": "QLD1", "description": "With a project value of approximately $70 million, the farm is operating as a merchant plant. Supported by Whitsunday Regional Council, the Hayman Solar Farm sits within a former coal mining hub, 10km northwest of Collinsville.
", "units": [ { "code": "HAYMSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 57.75, "data_first_seen": "2019-01-12T10:15:00+10:00", "data_last_seen": "2025-07-21T17:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HAZEL", "name": "Hazelwood", "network_id": "NEM", "network_region": "VIC1", "description": "The Hazelwood Power Station is a decommissioned brown coal-fuelled thermal power station located in the Latrobe Valley of Victoria, Australia. Built between 1964 and 1971, the 1,600 megawatt capacity power station was made up of eight 200MW units, and supplied up to 25% of Victoria's base load electricity and more than 5% of Australia's total electricity demand. It was a 'subcritical' pulverized coal-fired boiler. The station was listed as the least carbon efficient power station in the OECD in a 2005 report by WWF Australia, making it one of the most polluting power stations in the world. At 1.56 tonnes of CO2 for each megawatt hour of electricity, it was 50% more polluting than the average black coal power station in New South Wales or Queensland. Hazelwood emitted 14% of Victoria's annual greenhouse gas emissions and 3% of Australia's greenhouse gas emissions.
International Power plc purchased Hazelwood Power Station and the adjoining mine from the Victorian Government in 1996 with an expected 40-year life. In 2005, the Bracks Labor Government approved an environmental effects statement (EES) that allowed Hazelwood to relocate a road and a section of the Morwell river to allow access to an additional 43 million tonnes of coal in addition to that allowed under the mining licence boundaries set at the time of privatisation. This was estimated to provide sufficient coal for the plant to operate to at least 2030 (prior to decommissioning plans). The EES also capped its expected total greenhouse output at 445 million tonnes of carbon dioxide over its life, after which Hazelwood may have been made to cease operation.
Hazelwood was jointly owned by Engie (formerly GDF Suez), with a 72% share and Mitsui & Co. with a 28% share. In 2014, Hazelwood employed 495 staff directly and on average 300 contractors. On 3 November 2016, Engie announced that the entire Hazelwood plant would be closed at the end of March 2017 giving five months notice of the closure. The power station closed in March 2017.
The Hazelwood Battery Energy Storage System (HBESS) is a 150MW/150MWh utility-scale battery that will help deliver further electricity grid stability for Victoria. It has the capacity to store the energy equivalent of an hour of energy generation from the rooftop solar systems of 30,000 Victorian homes
", "units": [ { "code": "HBESSL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 200.0, "data_first_seen": "2023-03-11T00:15:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" }, { "code": "HBESSG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 200.0, "data_first_seen": "2023-03-10T12:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HENDERSON_RENEWABLE", "name": "Henderson", "network_id": "WEM", "network_region": "WEM", "description": "", "units": [ { "code": "HENDERSON_RENEWABLE_IG1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 3.0, "emissions_factor_co2": 0.065, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HEPWIND", "name": "Hepburn", "network_id": "NEM", "network_region": "VIC1", "description": "The Hepburn Wind Project is a wind farm built and owned by Hepburn Wind, a community co-operative, and supported by the Victorian Government. The location of the project is Leonards Hill, 10 kilometres (6.2 mi) south of Daylesford, Victoria, north-west of Melbourne, Victoria. It comprises two individual 2.05 MW wind turbines supplied by REpower System AG which are projected to produce enough energy for 2,300 households, almost as many houses are in the twin-towns of Daylesford and Hepburn Springs.The project is the first community-owned wind farm in Australia. The initiative emerged because the community felt that the state and federal governments were not doing enough to address climate change. Hepburn Wind is the first project of the Hepburn Renewable Energy Association, now known as SHARE.
Hepburn Wind Project formally launched their share offer on 25 July 2008, and as of June 2011 over 1700 members had subscribed a total of $9.0 million. The project has secured over $13.1 million in funding with the additional funds being bank debt and Government grants. Shares have been issued with priority to the local residents of Daylesford and Hepburn Springs.
As the project is under 30 MW, it was assessed under the local planning guidelines administered through the Hepburn Shire Council. The planning permit was issued by Hepburn Shire in February 2007. The council received 325 submissions in support of the proposal and 18 objections.
The permit was subsequently challenged unsuccessfully at the Victorian Civil and Administrative Tribunal (VCAT) in June 2007.On 28 April 2010 the project signed a contract with REpower Systems for the turnkey construction of the wind farm. The official ground breaking ceremony was held on 8 October 2010 and was officiated by the Hon Gavin Jennings, the Victorian Minister for the Environment at the time.
Construction began in November 2010. The turbines left Germany on 5 December 2010 on the SE Panthea and arrived in Melbourne on 22 February 2011.
A community picnic day was held to view and celebrate the erection of the first turbine on Saturday, 19 April 2011.
The wind farm began generating power into the local electricity network on Wednesday, 22 June 2011.Community-owned wind farms are common in Denmark and Germany, which have high levels of wind power use. Community wind projects are also emerging in Canada, the Netherlands, the United Kingdom and the United States.
Hillston Sun Farm (\u201cHillston\u201d) is a 119MWdc solar photovoltaic development located 3.5km south of the township of Hillston in south west New South Wales. The solar farm will power the equivalent of 48,000 homes each year.
", "units": [ { "code": "HILLSTN1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 110.0, "data_first_seen": "2021-10-05T13:10:00+10:00", "data_last_seen": "2025-07-21T17:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HORNSDAL", "name": "Hornsdale", "network_id": "NEM", "network_region": "SA1", "description": "The Hornsdale Wind Farm is an electricity generator in the locality of Hornsdale in the south-west of the Narien Range, north of Jamestown, South Australia. It consists of 99 wind turbines with a generation capacity of 315 megawatts. Stage 1 specifically is 32 of these 99 turbines, for a total of 102MW. The plant is owned and operated by Neoen, a French renewable energy company.
The electricity generated by Hornsdale Wind Farm is contracted to be supplied to the Australian Capital Territory.
The Hornsdale Wind Farm is an electricity generator in the locality of Hornsdale in the south-west of the Narien Range, north of Jamestown, South Australia. It consists of 99 wind turbines with a generation capacity of 315 megawatts. Stage 2 specifically is 32 of these 99 turbines, for a total of 102MW. The plant is owned and operated by Neoen, a French renewable energy company.
The electricity generated by Hornsdale Wind Farm is contracted to be supplied to the Australian Capital Territory.
The Hornsdale Wind Farm is an electricity generator in the locality of Hornsdale in the south-west of the Narien Range, north of Jamestown, South Australia. It consists of 99 wind turbines with a generation capacity of 315 megawatts. Stage 3 specifically is 35 of these 99 turbines, for a total of 112MW. The plant is owned and operated by Neoen, a French renewable energy company.
The electricity generated by Hornsdale Wind Farm is contracted to be supplied to the Australian Capital Territory.
Hornsdale Power Reserve is a 150MW/194MWh grid-connected energy storage system co-located with the Hornsdale Wind Farm in the Mid North region of South Australia.
Between 2017 and 2020, it was the largest lithium-ion battery in the world.
During 2017 Tesla, Inc. won the contract and built the Hornsdale Power Reserve, for a capital cost of A$90 million, leading to the colloquial Tesla big battery name.In November 2019, Neoen confirmed that it was increasing capacity by a further 50MW/64.5MWh to a combined 185 MWh. The increased storage capacity was installed by March 23, 2020, and the increased power became operational in early September 2020.
The SEC Renewable Energy Park is a 100% publicly owned utility-scale renewable energy project in Victoria\u2019s west, near Horsham.
The SEC is working with developer OX2 to build the energy park in two stages, starting with a 119-megawatt solar farm comprising more than 212,000 PV solar panels.
The SEC\u2019s $370 million investment allowed work on the solar farm to begin immediately while supporting the addition of a 100-megawatt two-hour battery storage system \u2013 making it one of Australia\u2019s first integrated solar and BESS projects with a single connection point.
", "units": [ { "code": "0HORSHAML1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "LOAD" }, { "code": "0HORSHAMG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "GENERATOR" }, { "code": "0HORSHAMSF", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 118.8, "dispatch_type": "GENERATOR" } ] }, { "code": "HUGSF", "name": "Hughenden", "network_id": "NEM", "network_region": "QLD1", "description": "The Hughenden Solar Farm is a solar farm at Hughenden in North West Queensland, Australia. The power station was constructed by BayWa, beginning in 2017. Construction was completed in 2018. Lighthouse Infrastructure bought the solar farm from Baywa who continue to operate and manage the plant.
The power station can generate 20.16 megawatts.
CS Energy has signed a Power Purchase Agreement with Hughenden Solar Farm.
The Hume Power Station is a 58 megawatts (78,000\u00a0hp) hydro-electric power station installed in the dam wall, and is primarily used for peak-load generation. The station has an average annual output of 220 gigawatt-hours (790\u00a0TJ). The power station has two 29 megawatts (39,000\u00a0hp) turbines and is operated by Meridian Energy.
The power station was completed in 1957, running two 25 megawatts (34,000\u00a0hp) turbines. In 2000, these turbines were each upgraded to 29 megawatts (39,000\u00a0hp).
", "units": [ { "code": "HUMENSW", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 29.0, "data_first_seen": "1998-12-09T05:25:00+10:00", "data_last_seen": "2025-07-09T10:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HUMEV", "name": "Hume", "network_id": "NEM", "network_region": "VIC1", "description": "The Hume Power Station is a 58 megawatts (78,000\u00a0hp) hydro-electric power station installed in the dam wall, and is primarily used for peak-load generation. The station has an average annual output of 220 gigawatt-hours (790\u00a0TJ). The power station has two 29 megawatts (39,000\u00a0hp) turbines and is operated by Meridian Energy.
The power station was completed in 1957, running two 25 megawatts (34,000\u00a0hp) turbines. In 2000, these turbines were each upgraded to 29 megawatts (39,000\u00a0hp).
", "units": [ { "code": "HUMEV", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 29.0, "data_first_seen": "1998-12-09T05:25:00+10:00", "data_last_seen": "2025-03-13T09:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "HUNTER", "name": "Hunter", "network_id": "NEM", "network_region": "NSW1", "description": "The power station will comprise two heavy-duty, open cycle gas turbines (OCGT) and are the latest and most efficient turbines that the world\u2019s best manufacturers can offer for the site.
The OCGTs will operate on natural gas and will be hydrogen-ready. Diesel is available on-site as a backup for the extreme and rare cases where the NSW power grid needs it to keep the lights on. Over the power station\u2019s life, diesel usage is negligible.
It is expected that OCGTs will be capable of initially running on up to 15% hydrogen. With some additional investment, we expect they will be capable of up to 30% hydrogen. The ability to run on hydrogen is dependent on the balance of plant modifications and the availability of green hydrogen.
", "units": [ { "code": "HUNTER1", "fueltech_id": "gas_ocgt", "status_id": "committed", "capacity_registered": 375.0, "emissions_factor_co2": 0.581, "dispatch_type": "GENERATOR" }, { "code": "HUNTER2", "fueltech_id": "gas_ocgt", "status_id": "committed", "capacity_registered": 375.0, "emissions_factor_co2": 0.581, "dispatch_type": "GENERATOR" } ] }, { "code": "HEZ", "name": "Hunter Economic Zone", "network_id": "NEM", "network_region": "NSW1", "description": "The power station will comprise two heavy-duty, open cycle gas turbines (OCGT) and are the latest and most efficient turbines that the world\u2019s best manufacturers can offer for the site. The OCGTs will operate on natural gas and will be hydrogen-ready. Diesel is available on-site as back-up for the extreme and rare cases where the NSW power grid needs it to keep the lights on. Over the power station\u2019s life, diesel usage is negligible.
", "units": [ { "code": "HEZ1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 28.0, "emissions_factor_co2": 0.5543, "data_first_seen": "2022-04-28T11:50:00+10:00", "data_last_seen": "2025-06-30T10:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "HEZ", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 29.0, "emissions_factor_co2": 1.01, "dispatch_type": "GENERATOR" } ] }, { "code": "HUNTVGT", "name": "Hunter Valley", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "HVGTS", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 50.0, "emissions_factor_co2": 0.706, "data_first_seen": "1998-12-07T11:25:00+10:00", "data_last_seen": "2020-02-09T16:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "INVICTA", "name": "Invicta Sugar Mill", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "INVICTA", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 50.3, "emissions_factor_co2": 0.18, "data_first_seen": "2009-07-01T00:05:00+08:00", "data_last_seen": "2018-06-14T00:00:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "ICSM", "name": "Isis Central Sugar Mill", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "ICSM", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 25.0, "emissions_factor_co2": 0.0157, "dispatch_type": "GENERATOR" } ] }, { "code": "JACKSGUL", "name": "Jacks Gully", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "JACKSGUL", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 2.3, "emissions_factor_co2": 0.0778, "dispatch_type": "GENERATOR" } ] }, { "code": "JEERA", "name": "Jeeralang A", "network_id": "NEM", "network_region": "VIC1", "description": "Jeeralang Power Station is a gas turbine power station with a capacity of 460 megawatts near Morwell, Victoria, Australia. The station is a peaking facility which is used only during periods of peak demand, and is also used as a black start facility to restore power to the grid in the event of major system failure. As a result, the actual capacity factor of the station is less than 5%. The power station was built by the State Electricity Commission of Victoria in response to the scaling back of Newport D power station from 1,000 megawatts to 500 megawatts, as a result of community concerns and union bans. Jeeralang consists of seven gas turbines configured to operate in single cycle mode.
Jeeralang A was built between 1977 and 1979 and consists of four Siemens Industries V93.1 gas turbines with a combined capacity of 220 megawatts.
Jeeralang Power Station is a gas turbine power station with a capacity of 460 megawatts near Morwell, Victoria, Australia. The station is a peaking facility which is used only during periods of peak demand, and is also used as a black start facility to restore power to the grid in the event of major system failure. As a result, the actual capacity factor of the station is less than 5%. The power station was built by the State Electricity Commission of Victoria in response to the scaling back of Newport D power station from 1,000 megawatts to 500 megawatts, as a result of community concerns and union bans. Jeeralang consists of seven gas turbines configured to operate in single cycle mode.
Jeeralang B was built between 1978 and 1980 and consists of three Alstom Atlantique MS-9001 gas turbines with a combined capacity of 240 megawatts.
", "units": [ { "code": "JLB03", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 76.0, "emissions_factor_co2": 0.8091, "data_first_seen": "1998-12-11T10:30:00+10:00", "data_last_seen": "2025-07-18T20:05:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "JLB02", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 76.0, "emissions_factor_co2": 0.8091, "data_first_seen": "1998-12-10T12:25:00+10:00", "data_last_seen": "2025-06-18T21:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "JLB01", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 76.0, "emissions_factor_co2": 0.8091, "data_first_seen": "1998-12-09T16:10:00+10:00", "data_last_seen": "2025-07-16T10:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "JEMALNG1", "name": "Jemalong", "network_id": "NEM", "network_region": "NSW1", "description": "The Jemalong Solar Project (JSP) development is a 50MW solar farm located near Forbes in the central west region of New South Wales.
", "units": [ { "code": "JEMALNG1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 55.0, "data_first_seen": "2021-02-02T14:40:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "JNDSHPS", "name": "Jindabyne", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "JNDABNE1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 1.1, "dispatch_type": "GENERATOR" } ] }, { "code": "SNWYGJP2", "name": "Jindabyne Pump At Guthega", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "SNWYGJP2", "fueltech_id": "pumps", "status_id": "retired", "capacity_registered": 70.0, "dispatch_type": "GENERATOR" }, { "code": "SNOWYGJP", "fueltech_id": "pumps", "status_id": "operating", "capacity_registered": 70.0, "data_first_seen": "2019-11-10T14:25:00+10:00", "data_last_seen": "2023-03-16T16:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "JBUTTERS", "name": "John Butters", "network_id": "NEM", "network_region": "TAS1", "description": "The John Butters Power Station is a conventional hydroelectric power station located in Western Tasmania, Australia. The power station forms part of the King \u2013 Yolande River Power Scheme and is owned and operated by Hydro Tasmania.
", "units": [ { "code": "JBUTTERS", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 144.0, "data_first_seen": "2005-05-17T16:15:00+10:00", "data_last_seen": "2025-07-21T20:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "JOUNAMA", "name": "Jounama", "network_id": "NEM", "network_region": "NSW1", "description": "A 14.4 megawatts small hydroelectric power station was completed in 2010 and is attached to the diverted flow of the Tumut River below the Jounama Dam wall. It is claimed that the small hydro facility generates enough energy to power 6,800 homes.
", "units": [ { "code": "JOUNAMA1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 14.0, "dispatch_type": "GENERATOR" } ] }, { "code": "JUNEESF", "name": "Junee", "network_id": "NEM", "network_region": "NSW1", "description": "Junee Solar Farm is a 30 MWac solar farm in NSW just north of the 5000 person town of Junee, which is approximately 30 minutes\u2019 drive from Wagga Wagga. The project commenced development in 2017 and is now operational having been acquired by Mytilineos.
The project is in a 10 year Power Purchase Agreement with Coles alongside two of Terrain Solar\u2019s other solar farm developments, providing approximately 10% of Coles\u2019 energy Australia wide.
", "units": [ { "code": "JUNEESF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 36.0, "data_first_seen": "2021-05-25T12:40:00+10:00", "data_last_seen": "2025-06-20T09:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KABANWF", "name": "Kaban", "network_id": "NEM", "network_region": "QLD1", "description": "Kaban Green Power Hub is a renewable energy project located in the Atherton Tablelands of Far North Queensland.\u200b It consists of a 157 MW wind farm with approval for a 100 MW battery, and a network upgrade.
", "units": [ { "code": "KABANWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 156.0, "data_first_seen": "2022-09-26T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KALAMUNDA_SG", "name": "Kalamunda", "network_id": "WEM", "network_region": "WEM", "description": "", "units": [ { "code": "KALAMUNDA_SG", "fueltech_id": "bioenergy_biogas", "status_id": "retired", "capacity_registered": 1.3, "emissions_factor_co2": 0.057, "data_first_seen": "2014-08-06T10:30:00+10:00", "data_last_seen": "2022-03-21T15:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KALBARRI", "name": "Kalbarri", "network_id": "WEM", "network_region": "WEM", "description": "Located around 20km south of Kalbarri, this wind farm generates around one third of the electricity needed by the Kalbarri community, offsetting nearly 5,000 tonnes of greenhouse gases each year. While 1.6 megawatts are supplied by the wind farm, another 2 megawatts are stored in a back-up battery. The project was completed in 2021 to provide an alternative and renewable energy supply to Kalbarri if connection to the main grid is lost.
", "units": [ { "code": "KALBARRI_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 1.6, "data_first_seen": "2013-12-18T08:00:00+08:00", "data_last_seen": "2025-07-21T07:55:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "STHRNCRS", "name": "Kambalda", "network_id": "WEM", "network_region": "WEM", "description": "Southern Cross Energy, in Australia, is 100 per cent owned by TransAlta and is made up of four simple-cycle power stations, each with one gas turbine. The stations are located in Kambalda, where TransAlta is a significant sponsor of the Kambalda Community Recreation Centre, as well as in Mt. Keith, Leinster and Kalgoorlie.
Simple-cycle power generation is often used for periods of peak usage, or to reinforce baseload power provided by other sources. BHP Billiton Nickel West uses most of the electricity generated by Southern Cross Energy in its area mining operations.
", "units": [ { "code": "STHRNCRS_EG", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 245.0, "emissions_factor_co2": 0.5572, "data_first_seen": "2014-02-26T12:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KARSF", "name": "Karadoc", "network_id": "NEM", "network_region": "VIC1", "description": "Karadoc Solar Farm is a photovoltaic power station 35 kilometres (22 mi) south of Mildura near the town of Iraak in the Australian state of Victoria. It can generate up to 112MW of electricity, and was designed by BayWa r.e. Solar. It was officially opened in March 2019.The solar farm is on a site of 269 hectares (664 acres) and was built by Melbourne construction company Beon Energy Solutions with first generation in November 2018. It has an offtake agreement to provide 74,000 MWh per year of electricity to Carlton & United Breweries for 12 years. At the time of its construction, it was the largest in Victoria at 90 MWAC, 120 MWP.
", "units": [ { "code": "KARSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 104.0, "data_first_seen": "2018-10-24T08:10:00+10:00", "data_last_seen": "2025-07-21T17:45:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BLAIRFOX_KARAKIN", "name": "Karakin", "network_id": "WEM", "network_region": "WEM", "description": "Blair Fox managed the purchase and dismantling of 20 ENERCON E40 500kW wind turbines from the San Giorgio La Molara wind farm in the province of Benevento, Italy.
These wind turbines were transported to Western Australia, refurbished and installed at the West Hills and Karakin Wind Farms around 150km north of Perth.
The 5MW Karakin Wind Farm supplies local horticulturalists over a private 33kV distribution network with the balance of electricity generated used to supply Blair Fox retail customers in the South West Interconnected System (SWIS).
The Kareeya Hydro Power Station near Tully in Queensland, Australia in a hydroelectric power station that began generating power in 1957. It has a capacity of 88 megawatts (118,000 hp) which is fed into the National Electricity Market. The power station is owned by CleanCo Queensland.
Taking its name from the Aboriginal word meaning 'big water', the Kareeya Hydro project originally comprised construction of Koombooloomba Dam, the Tully Falls Weir and Kareeya Hydro power station. A dam was needed for water storage because most of the rain in the area falls in the first few months of the year. An intake tower is located in the weir, which directs water down a tunnel to the turbines in an underground power station below Tully Falls.
Planning for the project began in 1949 and it was intended to be operating by 1955. Construction of a diversion tunnel started in early 1952. The 132 Kv transmission line was the first ever constructed in Queensland and the state's first use of steel towers for electricity distribution. The last of the four generating sets was installed by mid-1959.
The power station's staff and families were provided accommodation in a small village, named Cardstone, located downstream from the plant.
Keepit Power Station is a hydro-electric power station located at the Keepit Dam on the Namoi River, near Gunnedah in the North West Slopes region of New South Wales, Australia. The Keepit Power Station has one turbine with a generating capacity of 7.2 megawatts (9,700 hp) of electricity. The power station is operated by Eraring Energy and generated 1,603 megawatts (2,150,000 hp) of net energy production during 2009, used primarily for peak-load generation.
", "units": [ { "code": "KEEPIT", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 7.2, "dispatch_type": "GENERATOR" } ] }, { "code": "KEMERTON", "name": "Kemerton", "network_id": "WEM", "network_region": "WEM", "description": "Kemerton Power Station is a power station 17 km northeast of Bunbury in Western Australia. It is located in an area known as the Kemerton Industrial Park. The location had been considered as being Kemerton, in the 1980s as a potential aluminium smelter location, but is now considered to be part of Wellesley. The consideration of the site as being appropriate as a power station site was being considered in the early 2000s.It is rated at 300 MW using two Siemens open cycle gas turbine generators powered by natural gas. It operates as a peaking plant and provides electricity into the South West Interconnected System (SWIS). When it was built in 2005, it was rated at 260.9 MW, and received an upgrade to the current capacity in June 2008. When gas is not available, the power station can also operate on fuel oil. Gas is supplied to the Kemerton Power Station via a 4.94 km lateral branch from the Dampier to Bunbury Natural Gas Pipeline. The branch line is a 300 mm diameter steel pipe with 6.4 mm wall thickness.Kemerton power station also has four 1.25 MW diesel generators completed in October 2018. These are used in a contract with the Australian Energy Market Operator (AEMO) to provide the capability for a black start on the SWIS if needed.
", "units": [ { "code": "KEMERTON_GT11", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 154.7, "emissions_factor_co2": 0.667, "data_first_seen": "2014-01-06T15:00:00+10:00", "data_last_seen": "2025-07-18T21:40:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "KEMERTON_GT12", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 154.7, "emissions_factor_co2": 0.667, "data_first_seen": "2014-01-10T14:30:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TESLA_KEMERTON", "name": "Kemerton", "network_id": "WEM", "network_region": "WEM", "description": "Commissioned in 2012, Kemerton is located in the Kemerton Industrial Park north of Bunbury.
", "units": [ { "code": "TESLA_KEMERTON_G1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 10.0, "emissions_factor_co2": 0.667, "data_first_seen": "2014-01-22T12:30:00+08:00", "data_last_seen": "2025-07-21T07:55:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "AGLSITA", "name": "Kemps Creek", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "AGLSITA1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.062, "dispatch_type": "GENERATOR" } ] }, { "code": "KENNEDY", "name": "Kennedy Energy Park", "network_id": "NEM", "network_region": "QLD1", "description": "Kennedy Energy Park is a world-first wind, solar and energy storage facility located in Flinders Shire in central north Queensland. The project is owned by Windlab and Eurus. Construction has commenced and it will be generating by late 2019.
", "units": [ { "code": "KEPBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 2.0, "data_first_seen": "2024-06-06T10:50:00+08:00", "data_last_seen": "2025-07-20T15:05:00+08:00", "dispatch_type": "LOAD" }, { "code": "KEPSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 16.0, "data_first_seen": "2021-07-06T10:05:00+08:00", "data_last_seen": "2025-07-21T17:55:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "KEPBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 2.0, "data_first_seen": "2021-07-09T17:10:00+08:00", "data_last_seen": "2025-07-13T18:25:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "KEPWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 43.2, "data_first_seen": "2021-07-06T13:20:00+08:00", "data_last_seen": "2025-07-13T22:50:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KERNGSP", "name": "Kerang", "network_id": "NEM", "network_region": "VIC1", "units": [ { "code": "KERNGSP1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 37.0, "data_first_seen": "2025-02-28T16:35:00+10:00", "data_last_seen": "2025-07-21T17:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KIAMSF1", "name": "Kiamal", "network_id": "NEM", "network_region": "VIC1", "description": "Kiamal Solar Farm is located in north-west Victoria, approximately 3 km north of the township of Ouyen with Stage 1 currently under construction. When completed it will be Victoria's largest solar farm.
", "units": [ { "code": "KIAMSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 239.0, "data_first_seen": "2020-09-08T12:10:00+10:00", "data_last_seen": "2025-07-21T17:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KIATAWF", "name": "Kiata", "network_id": "NEM", "network_region": "VIC1", "description": "Kiata Wind Farm is a small wind farm located along the Western Highway north of Nhill. The wind farm is owned by Windlab, the John Laing Group and some local shareholders. The turbines were built by Keppel Prince and assembled at the site by Windlab. It was "officially opened" by Lily D'Ambrosio on Australia Day 2018. According to Kiata Wind Farm director Rob Fisher, the Kiata turbines "are the biggest turbines operating in Australia to date." The ABC reported that some of the local landholders would become part owners "via a community investment model."
", "units": [ { "code": "KIATAWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 31.0, "data_first_seen": "2017-11-10T09:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0KIDSTON", "name": "Kidston", "network_id": "NEM", "network_region": "QLD1", "description": "The Kidston Pumped Hydro Project is the flagship project of the Kidston Clean Energy Hub, located in Kidston, Far-North Queensland.
The Kidston Pumped Storage Hydro Project is the first pumped hydro project in Australia for over 40 years, the first to be developed by the private sector, and the third largest electricity storage device in the country.
", "units": [ { "code": "0KIDSTON", "fueltech_id": "hydro", "status_id": "committed", "capacity_registered": 250.0, "dispatch_type": "GENERATOR" } ] }, { "code": "KSP1", "name": "Kidston", "network_id": "NEM", "network_region": "QLD1", "description": "KS1 is the first of four projects that comprise the Kidston Clean Energy Hub, located in Kidston, Far-North Queensland.
This site was selected in order to take advantage of the highest solar radiation zone in the country. The project has 540,000 solar panels operating on a single axis tracking system with an anticipated project life of 30 years.
", "units": [ { "code": "KSP1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 50.0, "data_first_seen": "2017-11-30T14:45:00+10:00", "data_last_seen": "2025-07-21T17:45:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KINCUMB", "name": "Kincumber", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "KINCUM1", "fueltech_id": "bioenergy_biogas", "status_id": "retired", "capacity_registered": 1.0, "emissions_factor_co2": 0.62, "dispatch_type": "GENERATOR" } ] }, { "code": "KINGASF", "name": "Kingaroy", "network_id": "NEM", "network_region": "QLD1", "description": "The proposed development site is located approximately 1 km east of Kingaroy, Queensland. Kingaroy is agricultural town in the South Burnett Region, approximately 200 km north of Brisbane. The township is located at the junction of D\u2019Aguilar Highway and the Bunya Highway. The development is located on the State-controlled Kingaroy Barkers Creek Road.
The project is located in the local government area of the South Burnett Regional Council, in the Kingaroy Shire.
The Solar Farm will involve the construction of electricity generation works across an area of approximately 118.37 hectares. The solar array is anticipated to have a 30-50 year life span.
", "units": [ { "code": "KINGASF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 47.0, "data_first_seen": "2024-09-04T09:40:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KOGANCK", "name": "Kogan Creek", "network_id": "NEM", "network_region": "QLD1", "description": "The Kogan Creek Power Station is a 750 megawatt coal fired power station owned by CS Energy on the Darling Downs in Queensland. The $1.2 billion plant is situated at Brigalow, in the Surat Basin between Dalby and Chinchilla.
The power station uses supercritical steam technology, which produces lower greenhouse gases emissions per energy unit delivered, and air-cooled surface condensers, which reduces water consumption. The plant consumes 90% less water when compared to conventional power stations through the use of dry cooling technology. The plant runs at 40 per cent efficiency, and requires 42 per cent less fuel input than conventional power stations.
Located ten minutes north of Grafton on the banks of the Clarence River, the Koolkhan power station was commissioned in the 1950s to provide a reliable electricity supply to the Northern Rivers region. The power station was coal-fired and operated daily up until 1979, when it was decommissioned and used as a storage facility over ensuing years.
", "units": [ { "code": "KKGTS", "fueltech_id": "gas_ccgt", "status_id": "retired", "capacity_registered": 20.0, "emissions_factor_co2": 0.5447, "data_first_seen": "1998-12-07T11:45:00+10:00", "data_last_seen": "2000-03-03T05:00:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KESS1", "name": "Koorangie", "network_id": "NEM", "network_region": "VIC1", "description": "Currently in the development phase, the new lithium-ion battery will be connected to AusNet\u2019s 220kV transmission network and provide system strength to the Murray River Renewable Energy Zone (REZ).
Edify has been awarded a System Support Agreement with the Australian Energy Market Operator (AEMO) to provide 125 megawatts (MW) of services to strengthen the power system and increase the potential for generation in the Murray River region. The objective for KESS is to increase the renewable hosting capacity of the Murray River REZ by up to 300MW, through the provision of system strength to improve network stability.
", "units": [ { "code": "KESSL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 185.0, "data_first_seen": "2025-02-14T11:00:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" }, { "code": "KESSG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 185.0, "data_first_seen": "2025-02-14T14:25:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "KRCCOGEN", "name": "KRC Cogen", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "KRCCOGEN", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 5.0, "emissions_factor_co2": 0.68, "dispatch_type": "GENERATOR" } ] }, { "code": "KWINANA", "name": "Kwinana", "network_id": "WEM", "network_region": "WEM", "description": "Kwinana Cogeneration Plant is located 40 kilometres south of Perth, Western Australia. It provides steam and electrical power to the BP Australia Kwinana Oil Refinery and electricity only to Synergy, the State owned generator/retailer.
As a cogeneration plant, Kwinana supplies both steam and electrical power to its two customers. Steam production from the plant comes predominantly from the waste heat from the gas turbine exhausts and is supported by burning refinery fuel gas from the BP Refinery using 'Duct Burners' inside the Heat Recovery Steam Generators (HRSG). The steam produced drives a steam turbine, further enhancing the plant's efficiency, with BP's steam supply coming from the extraction port on the steam turbine after some pressure and temperature has been lost.
Kwinana produces 119MW of electricity, or approximately 6% of Western Australia's requirements. It is primarily fueled by natural gas from Western Australia's North West Shelf gas fields and delivered to the plant by the Dampier to Bunbury Natural Gas Pipeline. The plant is certified for its environmental practices (ISO 14001), quality assurance (ISO 9001) and health and safety (AS4801 & BS18001).
Kwinana Cogeneration Plant is located 40 kilometres south of Perth, Western Australia. It provides steam and electrical power to the BP Australia Kwinana Oil Refinery and electricity only to Synergy, the State owned generator/retailer.
As a cogeneration plant, Kwinana supplies both steam and electrical power to its two customers. Steam production from the plant comes predominantly from the waste heat from the gas turbine exhausts and is supported by burning refinery fuel gas from the BP Refinery using 'Duct Burners' inside the Heat Recovery Steam Generators (HRSG). The steam produced drives a steam turbine, further enhancing the plant's efficiency, with BP's steam supply coming from the extraction port on the steam turbine after some pressure and temperature has been lost.
Kwinana produces 119MW of electricity, or approximately 6% of Western Australia's requirements. It is primarily fueled by natural gas from Western Australia's North West Shelf gas fields and delivered to the plant by the Dampier to Bunbury Natural Gas Pipeline. The plant is certified for its environmental practices (ISO 14001), quality assurance (ISO 9001) and health and safety (AS4801 & BS18001).
A 100MW battery in Perth, Western Australia that commenced operation in May 2023.
", "units": [ { "code": "KWINANA_ESR1.G1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 100.0, "data_first_seen": "2023-09-28T08:00:00+08:00", "data_last_seen": "2025-07-21T07:55:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "KWINANA_ESR1.L1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 100.0, "data_first_seen": "2023-09-28T10:25:00+08:00", "data_last_seen": "2025-07-21T06:10:00+08:00", "dispatch_type": "LOAD" } ] }, { "code": "KWINANA_ESR2", "name": "Kwinana Battery 2", "network_id": "WEM", "network_region": "WEM", "description": "Kwinana Battery Energy Storage System 2 (KBESS2) is Synergy's second lithium ion phosphate (LFP), large scale battery energy storage system in the SWIS.
", "units": [ { "code": "KWINANA_ESR2L1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 225.0, "data_first_seen": "2024-10-19T14:20:00+08:00", "data_last_seen": "2025-07-21T06:45:00+08:00", "dispatch_type": "LOAD" }, { "code": "KWINANA_ESR2G1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 225.0, "data_first_seen": "2024-10-19T13:15:00+08:00", "data_last_seen": "2025-07-21T07:55:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TIWEST_COG1", "name": "Kwinana Cogen", "network_id": "WEM", "network_region": "WEM", "description": "The Kwinana Co-generation power plant was commissioned in December 1996, 40km south of Perth in Western Australia. The plant is primarily fuelled by Western Australia\u2019s gas fields, north of Perth. The gas is transported to Kwinana through the Dampier to Bunbury Gas pipeline. It can produce over 120 MW of electricity which can supply about 6 per cent of Western Australia\u2019s power needs.
", "units": [ { "code": "TIWEST_COG1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 42.1, "emissions_factor_co2": 0.58, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "PPP_KCP_EG1", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 120.0, "emissions_factor_co2": 0.52, "data_first_seen": "2013-12-18T08:00:00+10:00", "data_last_seen": "2021-11-27T23:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PERTHENERGY_KWINANA", "name": "Kwinana Swift", "network_id": "WEM", "network_region": "WEM", "description": "The Kwinana Swift Power Station is a dual-fuel 120 MW peaking station located 40km south of Perth in the city of Kwinana. The station features four 30MW gas turbines connected to two common generators.
", "units": [ { "code": "PERTHENERGY_KWINANA_GT1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 116.0, "emissions_factor_co2": 0.5823, "data_first_seen": "2013-12-20T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LADBROKE", "name": "Ladbroke Grove", "network_id": "NEM", "network_region": "SA1", "description": "Ladbroke Grove Power Station is a gas-fired power station in the locality of Monbulla near Penola in the Limestone Coast region of South Australia. It was built by Boral Limited in 2000. It is now owned by Origin Energy.The power station was originally built with a generating capacity of 40 MW, and now has a generating capacity of 80 MW. It is used as a peaking power plant.Ladbroke Grove power station was built next to the Katnook gas processing plant, which processed gas extracted from the Katnook Gas Field in the western Otway Basin. Originally, Ladbroke Grove used gas processed next door. When the wells in the field were becoming depleted, a branch from the SEAGas pipeline was built to the Katnook plant, and gas from that pipeline, drawn from further east in the Otway Basin, now fuels the power station.
", "units": [ { "code": "LADBROK1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 40.0, "emissions_factor_co2": 0.5078, "data_first_seen": "2000-01-10T14:10:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "LADBROK2", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 40.0, "emissions_factor_co2": 0.5078, "data_first_seen": "2000-05-04T13:50:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LBBESS", "name": "Lake Bonney", "network_id": "NEM", "network_region": "SA1", "description": "The 25 MW / 52 MWh Battery Energy Storage System is co-located with the Lake Bonney Wind Farms near Millicent in South Australia. The battery was energised in 2019.
Iberdrola Australia entered into funding agreements with the South Australian (SA) Government and the Australian Renewable Energy Agency (ARENA) to co-fund the ~$38 million development. The SA Government and ARENA are each contributing up to $5 million in funding.
The battery assists Iberdrola Australia in managing the intermittency risk associated with renewable energy. It also participates in the volatile Frequency Control Ancillary Services (FCAS) markets, providing\u00a0Iberdrola Australia\u00a0with a degree of hedging against FCAS costs. In addition, the battery contributes towards system reliability for our customers - and the network as a whole - in South Australia.
", "units": [ { "code": "LBBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 25.0, "data_first_seen": "2019-10-16T10:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "LOAD" }, { "code": "LBBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 25.0, "data_first_seen": "2019-10-16T13:45:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LKBONNY1", "name": "Lake Bonney", "network_id": "NEM", "network_region": "SA1", "description": "The Lake Bonney Wind Farms are located on the Woakwine Range, about 2 km from the eastern shore of Lake Bonney, near Millicent in South Australia. The wind farm was constructed in three separate stages (Lake Bonney 1, 2 and 3) with the final stage commencing operations in July 2010.
The 278.5 MW wind farm comprises 112 wind turbines which include 46 Vestas V66 wind turbines and 66 Vestas V90 wind turbines.
", "units": [ { "code": "LKBONNY1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 80.5, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T20:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LKBONNY_2", "name": "Lake Bonney 2", "network_id": "NEM", "network_region": "SA1", "description": "The Lake Bonney Wind Farms are located on the Woakwine Range, about 2 km from the eastern shore of Lake Bonney, near Millicent in South Australia. The wind farm was constructed in three separate stages (Lake Bonney 1, 2 and 3) with the final stage commencing operations in July 2010.
The 278.5 MW wind farm comprises 112 wind turbines which include 46 Vestas V66 wind turbines and 66 Vestas V90 wind turbines.
", "units": [ { "code": "LKBONNY2", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 159.0, "data_first_seen": "2007-05-31T17:00:00+10:00", "data_last_seen": "2025-07-21T21:00:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LKBONNY3", "name": "Lake Bonney 3", "network_id": "NEM", "network_region": "SA1", "description": "After the successful development of both the Lake Bonney Stage 1 (80.5 MW) and Lake Bonney Stage 2 (159 MW) wind farm projects, Lake Bonney Wind Power, a subsidiary of Infigen energy, successfully commissioned the 39 MW Lake Bonney Stage 3 wind farm. Construction commenced in February 2009 and was commissioned in September 2009.
", "units": [ { "code": "LKBONNY3", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 39.0, "data_first_seen": "2010-07-02T15:55:00+10:00", "data_last_seen": "2025-07-21T20:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LK_ECHO", "name": "Lake Echo", "network_id": "NEM", "network_region": "TAS1", "description": "The Lake Echo Power Station is a conventional hydroelectric power station located in the Central Highlands region of Tasmania, Australia. The power station is situated on the Upper River Derwent catchment and is owned and operated by Hydro Tasmania.
", "units": [ { "code": "LK_ECHO", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 32.4, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-09T16:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0LANCSF", "name": "Lancaster", "network_id": "NEM", "network_region": "VIC1", "description": "Lancaster Solar farm is currently under development, and is set to provide over 100MW of solar power to Victoria. The site is located approximately 9 km east of Kyabram.
", "units": [ { "code": "0LANCSF1", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 106.0, "dispatch_type": "GENERATOR" } ] }, { "code": "0LVBESS", "name": "Latrobe Valley", "network_id": "NEM", "network_region": "VIC1", "description": "The Latrobe Valley BESS (Battery Energy Storage System) is a 100 MW Battery Energy Storage System located beside the existing Morwell Terminal Station on Monash Way, just south of the Princes Freeway.
The Latrobe Valley BESS is now under construction and when complete will improve the reliability of the electricity network by storing power for use during peak periods.
", "units": [ { "code": "0LVBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "LOAD" }, { "code": "0LVBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "GENERATOR" }, { "code": "LVESL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 140.0, "dispatch_type": "LOAD" }, { "code": "LVESG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 140.0, "dispatch_type": "GENERATOR" } ] }, { "code": "LNGS", "name": "Laverton North", "network_id": "NEM", "network_region": "VIC1", "description": "Laverton North Power Station is a natural gas-powered plant, owned and operated by Snowy Hydro Limited. It is situated in Laverton North, on the south-western outskirts of Melbourne, Victoria, approximately 15 km from the Melbourne Central Business District. It is a peaking power plant, particularly constructed to cater for the growth in Victoria's summer electricity demand, and can be rapidly activated when required.The station has two open-cycle gas turbines that together can generate a total of 320 MW of electricity. The turbines are primarily fuelled by natural gas supplied from the Brooklyn-Lara gas pipeline but, in the event of a gas supply curtailment, they can burn low sulphur emission heavy oil as a backup fuel. The plant is normally operated remotely from Snowy Hydro Limited's central control room in Cooma, New South Wales, but is also equipped to be run locally.Snowy Hydro contracted Siemens to complete the engineering, procurement and construction (EPC) for the project. Initial civil works started in October 2004 and the station was commissioned in December 2006.The original licence only allowed the power station to operate for 10% of the year, but in May 2007 Snowy Hydro applied for an emergency extension of operating hours because a drought had affected hydro energy supplies. The Victorian Civil and Administrative Tribunal issued an interim order that the plant remain shut down on weekdays between 8am to 5pm, due to neighbouring offices being affected by the level of noise and vibration. However, the order was lifted in July 2007.
", "units": [ { "code": "LNGS1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 156.0, "emissions_factor_co2": 0.6581, "data_first_seen": "2015-07-01T00:10:00+10:00", "data_last_seen": "2025-07-04T00:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LNGS2", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 156.0, "emissions_factor_co2": 0.6581, "data_first_seen": "2015-07-01T00:05:00+10:00", "data_last_seen": "2025-07-03T23:40:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LAVNORTH", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 320.0, "emissions_factor_co2": 0.8715, "data_first_seen": "2006-10-28T13:00:00+10:00", "data_last_seen": "2015-06-24T15:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LEM_WIL", "name": "Lemonthyme / Wilmot", "network_id": "NEM", "network_region": "TAS1", "description": "Water from Lake Parangana is transferred west via tunnels to Lemonthyme Power Station. The water runs into Lake Cethana.
Water from Wilmot River is stored at Lake Gairdner in the Wilmot Dam. Water is transferred by tunnel, pipeline and penstock to Wilmot Power Station and then flows to Lake Cethana.
", "units": [ { "code": "LEM_WIL", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 81.6, "data_first_seen": "2005-05-16T16:00:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0LIDDELLBESS", "name": "Liddell", "network_id": "NEM", "network_region": "NSW1", "description": "The Liddell Battery is a 500 MW, two-hour duration, grid scale battery to be located on the former Liddell Power Station site at AGL Macquarie.
Construction work for the battery has commenced in June 2024, with the commencement of operations targeted for December 2025. Significant targets have been set around the employment of apprentices, local procurement \u2013 including 95% of steel being sourced locally - and working with First Nations businesses. At the peak of construction more than 150 workers will be involved in the project.
The total construction cost is estimated to be approximately $750 million.\u00a0Fluence has been selected as the engineering, procurement and construction (EPC) contractor. Connection Agreements have been signed with Transgrid to construct and operate 330/33kV battery substation and ~450mtrs of 330kV overhead transmission line and an extension to the existing 330kV switch yard.
The project will be supported by both a $35 million grant awarded by the Australian Renewable Energy Agency (ARENA) as part of its Advancing Renewables Program and a Long-Term Energy Service Agreement (LTESA), arranged by AEMO Services on behalf of the NSW Government.
Liddell Power Station is a coal-powered thermal power station with four 500 megawatts (670,000 hp) GEC steam driven turbine alternators for a combined electrical capacity of 2,000 megawatts (2,700,000 hp).
However, as at April 2018, its operating capacity has been assessed at 1,680 megawatts (2,250,000 hp). Commissioned between 1971 and 1973, the station is located adjacent to Lake Liddell near Muswellbrook in the Hunter Region of Australia.
The project is located around 50 km North-East of Emerald, in Central Queensland. The solar farm will be connected to the electricity network via a newly constructed substation.
", "units": [ { "code": "LILYSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 118.0, "data_first_seen": "2019-03-09T12:10:00+10:00", "data_last_seen": "2025-07-21T13:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0LCNBESS", "name": "Limestone Coast North", "network_id": "NEM", "network_region": "SA1", "description": "The Limestone Coast North Energy Park is the first of two new grid-scale co-located battery projects, being developed as part of the Limestone Coast Energy Park, located in regional South East Australia. These projects will significantly boost energy storage capacity, enhancing the state\u2019s energy stability and supporting its transition to net-zero emissions.
Strategically located near the 275kV South East Substation, the batteries will store excess renewable energy and discharge it during peak demand, stabilizing the grid and lowering energy costs. The parks will collectively store up to 60% of South Australia\u2019s residential solar output, preventing an average of 80,000 tonnes of carbon dioxide emissions annually.
", "units": [ { "code": "0LCNBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 250.0, "dispatch_type": "LOAD" }, { "code": "0LCNBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 250.0, "dispatch_type": "GENERATOR" } ] }, { "code": "0LIMBESS", "name": "Limondale", "network_id": "NEM", "network_region": "NSW1", "description": "RWE has started construction of Australia's first eight-hour Battery Energy Storage System (BESS), near Balranald, in New South Wales.
The landmark project has a planned capacity of 50+ megawatts (MW) and 400+ megawatt hours (MWh). The BESS will be located next to our existing 249 MWac Limondale Solar Farm \u2013 which is one of Australia\u2019s largest \u2013 and will connect to the existing 33kV transmission line.
Tesla will supply 144 Megapack batteries for the eight-hour lithium-ion BESS, which was the only successful project in New South Wales\u2019 first Long Duration Storage Long-Term Energy Service Agreements tender process.
RWE\u2019s first Australian renewables project is the Limondale Solar Farm, near Balranald in New South Wales.
The photovoltaic plant has about 872,000\u00a0panels on 770\u00a0hectares, and an installed capacity of 249\u00a0MWac.
", "units": [ { "code": "LIMOSF11", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 275.0, "data_first_seen": "2020-07-01T08:45:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LIMOSF2", "name": "Limondale 2", "network_id": "NEM", "network_region": "NSW1", "description": "RWE\u2019s first Australian renewables project is the Limondale Solar Farm, near Balranald in New South Wales.
The photovoltaic plant has about 872,000\u00a0panels on 770\u00a0hectares, and an installed capacity of 249\u00a0MWac.
", "units": [ { "code": "LIMOSF21", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 38.0, "data_first_seen": "2019-12-24T07:10:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LGAPWF1", "name": "Lincoln Gap", "network_id": "NEM", "network_region": "SA1", "description": "The Lincoln Gap Wind Farm is a wind farm under construction in the vicinity of Lincoln Gap on northeastern Eyre Peninsula in South Australia, Australia. It is proposed to consist of 59 wind turbines and generate a total of 212 MW of electricity. Construction began in late 2017 and was initially expected to be commissioned in late 2018. Construction was delayed in July 2018 when unexploded ordnance was discovered on the site, left from historic military testing. The site is not far from the Cultana Training Area.
", "units": [ { "code": "LGAPWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 126.0, "data_first_seen": "2019-05-01T11:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LGAPWF2", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 86.0, "data_first_seen": "2021-12-14T01:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0LOCKHART", "name": "Lockhart", "network_id": "NEM", "network_region": "NSW1", "description": "The Lockhart Hybrid Renewable Energy Project is has been designed to showcase how a regional town can benefit from lower power prices and share in the ownership of the electrical generation assets which export the bulk of the power back into the grid.
Lockhart is a town of 1,000 people, south of Wagga in NSW. The renewable hybrid energy plant will comprise of 10MW of solar AC coupled to a 10MW/20MWh battery with a single connection point, making it unique in the NEM.
", "units": [ { "code": "0LOCKHARTSF", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 10.0, "dispatch_type": "GENERATOR" } ] }, { "code": "LONGFORD", "name": "Longford", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "LONGFORD", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 44.0, "emissions_factor_co2": 0.6022, "dispatch_type": "GENERATOR" } ] }, { "code": "LRSF", "name": "Longreach", "network_id": "NEM", "network_region": "QLD1", "description": "The Longreach Solar Farm is a solar farm located ten kilometres east of Longreach in Central West Queensland, Australia. It has a generating capacity of 17.5 megawatts. The solar farm uses 53,000 single-axis tracking solar panels across a 50 hectare site. It was owned and operated by Canadian Solar Australia and Foresight. Foresight Solar Fund acquired the plant in 2022.
", "units": [ { "code": "LRSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 17.0, "data_first_seen": "2018-04-16T10:15:00+10:00", "data_last_seen": "2025-07-21T17:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LONSDALE", "name": "Lonsdale", "network_id": "NEM", "network_region": "SA1", "description": "Lonsdale Power Station is a diesel-powered electricity generator in South Australia in Lonsdale, an industrial southern suburb of Adelaide. It is owned by Snowy Hydro since 2014. It consists of 18 diesel reciprocating engines generating up to 21MW of electricity to meet peak demands in the National Electricity Market.The power station was designed and built by Cummins Power Generation under contract from Infratil in 2002 on what is now the site of the Port Stanvac Power Station. It was moved along the road to its present site in 2011. Snowy Hydro bought assets from Infratil in 2014. These included Lumo Energy, Direct Connect and three diesel peaking generators for a total of 136 MW. The other two were Angaston Power Station and Port Stanvac Power Station.It achieves the low emissions mandated by the Environment Protection Agency through selective catalytic reduction technology, matching standards set for gas turbines.
", "units": [ { "code": "LONSDALE", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 20.0, "emissions_factor_co2": 0.6749, "data_first_seen": "2016-01-12T12:45:00+10:00", "data_last_seen": "2025-05-21T09:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0LOTUSCRKWF", "name": "Lotus Creek", "network_id": "NEM", "network_region": "QLD1", "description": "The Lotus Creek Wind Farm is a proposed renewable energy project in Central Queensland, north of Rockhampton. The project will consist of up to 46 wind turbines, each with a maximum blade tip height of 230 metres and a combined maximum capacity of around 285 MW.
", "units": [ { "code": "0LOTUSCRKWF", "fueltech_id": "wind", "status_id": "committed", "capacity_registered": 285.2, "dispatch_type": "GENERATOR" } ] }, { "code": "LOYYANGA", "name": "Loy Yang A", "network_id": "NEM", "network_region": "VIC1", "description": "The Loy Yang Power Station is a brown coal- fired thermal power station located on the outskirts of the city of Traralgon, in south-eastern Victoria, Australia. It consists of two sections, known as Loy Yang A (4 units) and Loy Yang B (2 units). Both Loy Yang A and B are supplied by the Loy Yang brown coal mine. The Loy Yang power stations are located in the brown coal rich Latrobe Valley, along with the Yallourn Power Station.
Loy Yang A has four generating units with a combined capacity of 2,210\u00a0MW, which have been completed between 1984 and 1988.
", "units": [ { "code": "LYA1", "fueltech_id": "coal_brown", "status_id": "operating", "capacity_registered": 560.0, "emissions_factor_co2": 1.1609, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYA2", "fueltech_id": "coal_brown", "status_id": "operating", "capacity_registered": 530.0, "emissions_factor_co2": 1.1609, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYA3", "fueltech_id": "coal_brown", "status_id": "operating", "capacity_registered": 560.0, "emissions_factor_co2": 1.1609, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYA4", "fueltech_id": "coal_brown", "status_id": "operating", "capacity_registered": 560.0, "emissions_factor_co2": 1.1609, "data_first_seen": "1998-12-07T10:30:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "LOYYB", "name": "Loy Yang B", "network_id": "NEM", "network_region": "VIC1", "description": "Loy Yang B has two units with a capacity of 1,070\u00a0MW (1,430,000\u00a0hp) which entered service in 1993 and 1996. The two units have Hitachi turbo generators.
Loy Yang B employs up to 152 full-time staff and another 40 contractors. It is Victoria's newest and most efficient brown coal-fired power station and can generate approximately 17% of Victoria's power needs.
EDL owns and operates the 21 MW Lucas Heights Power Stations, which processes landfill gas (LFG) from the decomposition of organic waste into electricity, reducing greenhouse gas emissions.
", "units": [ { "code": "LUCASHGT", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 12.65, "emissions_factor_co2": 0.0774, "dispatch_type": "GENERATOR" } ] }, { "code": "LUCAS2S2", "name": "Lucas Heights 2", "network_id": "NEM", "network_region": "NSW1", "description": "EDL owns and operates the 21 MW Lucas Heights Power Stations, which processes landfill gas (LFG) from the decomposition of organic waste into electricity, reducing greenhouse gas emissions.
", "units": [ { "code": "LUCAS2S2", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 4.6, "emissions_factor_co2": 0.0787, "dispatch_type": "GENERATOR" } ] }, { "code": "MACARTH", "name": "Macarthur", "network_id": "NEM", "network_region": "VIC1", "description": "The Macarthur Wind Farm is a wind farm located in Macarthur, Victoria, Australia, near Hamilton, 260 km west of Melbourne. It is on a 5,500 ha site which has an installed capacity of 420 megawatts (MW). Based on a capacity factor of around 35%, it is estimated that the long-term average generation will be approximately 1,250 GWh per year. The energy produced annually by a wind farm varies year-to-year, and during FY2015 the farm produced 977.9 GWh.
It is the largest wind farm in the southern hemisphere generating enough power for 220,000 homes and abating 1.7 million tons of greenhouse gases annually, at a capacity factor of 35%. The wind farm comprises 140 Vestas V112-3.0MW wind turbines manufactured in Denmark.The project cost about A$1 billion and was fully operational in January 2013. It was constructed by Vestas and Leighton Contractors. The first turbines were connected to the grid in September 2012. AGL also invested an additional $27m in the substation, which is completely owned by the company.
With a total investment of AU$1.96 billion, the 1,026MW MacIntyre Wind Farm Precinct will be ACCIONA Energ\u00eda\u2019s biggest renewable energy facility and one of the largest onshore wind farms in the world. Developed in partnership with CleanCo, the Queensland Government\u2019s newest renewable energy generator, the wind farm is expected to be operational in 2024.
The MacIntyre Wind Farm will be constructed on land predominately used for sheep farming. Current farming practices will continue during the construction and operations phases of the wind farm. The site has been selected due to its exposure to consistent winds across this part of the country and provides a suitable resource for the development of a wind farm.
", "units": [ { "code": "MCINTYR1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 923.0, "data_first_seen": "2024-08-28T14:45:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MACKAY", "name": "Mackay", "network_id": "NEM", "network_region": "QLD1", "description": "The Mackay Gas Turbine was a remote-controlled power generator that was owned and operated by Stanwell Corporation Ltd. for short periods when customer demand for electricity was high. The gas turbine's ability to start quickly played a role in ensuring a secure, reliable power supply for distribution to consumers.
", "units": [ { "code": "MACKAYGT", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 34.0, "emissions_factor_co2": 1.0458, "data_first_seen": "1999-01-13T15:35:00+10:00", "data_last_seen": "2021-02-25T19:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MACKNTSH", "name": "Mackintosh", "network_id": "NEM", "network_region": "TAS1", "description": "The Mackintosh Power Station is a conventional hydroelectric power station located in Western Tasmania, Australia.
", "units": [ { "code": "MACKNTSH", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 79.9, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MANSLR", "name": "Manildra", "network_id": "NEM", "network_region": "NSW1", "description": "Located on Wiradjuri Country in the Central West of NSW, approximately 45 kilometres west of Orange, Manildra Solar Farm supplies clean, green energy to Energy Australia.
", "units": [ { "code": "MANSLR1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 50.0, "data_first_seen": "2018-05-02T13:25:00+10:00", "data_last_seen": "2025-07-21T17:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BRIDGETOWN_BIOMASS_PLANT", "name": "Manjimup", "network_id": "WEM", "network_region": "WEM", "description": "", "units": [ { "code": "BRIDGETOWN_BIOMASS_PLANT", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 40.0, "emissions_factor_co2": 0.057, "dispatch_type": "GENERATOR" } ] }, { "code": "MANNUMB", "name": "Mannum", "network_id": "NEM", "network_region": "SA1", "description": "The BESS will store excess renewable energy to supply to the electricity grid during peak demand periods, to support consistency of renewable energy supply. This means a cleaner, more reliable power grid for South Australians.
The BESS can send 100 megawatts of power into the electricity grid for up to two hours \u2013 enough to power about 16,000 South Australian homes each day.
", "units": [ { "code": "MANNUMBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 131.7, "data_first_seen": "2025-05-30T04:05:00+10:00", "data_last_seen": "2025-07-21T18:20:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MANNUMBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 131.7, "data_first_seen": "2025-05-30T11:20:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "MANNSF", "name": "Mannum 2", "network_id": "NEM", "network_region": "SA1", "description": "Stage 2 of the Mannum Solar Farm is the second project in Epic\u2019s growing Mannum Energy Park in the Riverland region of South Australia.
The project was acquired by Epic in August 2022 from its developers Canadian Solar and is now under construction, with operations expected to commence in late 2023.
Stage 2 will operate independently of Epic\u2019s initial Mannum Solar Farm with its own connection to SA Power Network\u2019s distribution network and will use Trina bifacial panels and single-axis tracking system, along with Sungrow inverters.
", "units": [ { "code": "0MANNBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "LOAD" }, { "code": "0MANNBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "GENERATOR" }, { "code": "MANNSF2", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 37.0, "data_first_seen": "2024-01-03T09:25:00+10:00", "data_last_seen": "2025-07-21T17:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MAPS2", "name": "Mannum Pumping Station", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "MAPS3PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 16.5, "data_first_seen": "2023-03-23T13:05:00+10:00", "data_last_seen": "2025-07-21T17:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MAPS2PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 16.5, "data_first_seen": "2021-08-18T11:00:00+10:00", "data_last_seen": "2025-07-21T17:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MAROOWF1", "name": "Maroona", "network_id": "NEM", "network_region": "VIC1", "description": "The construction of Maroona Wind Farm was completed in January 2018. It is a a two-turbine wind farm located on private farm land near the township of Maroona, approximately 18km south west of Ararat in Western Victoria. The wind farm has a capacity of 6.9MW and connects to the existing electricity network in the area. In an average year the wind farm will produce the equivalent energy usage of around 4000 households.
", "units": [ { "code": "MAROOWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 6.8, "dispatch_type": "GENERATOR" } ] }, { "code": "MARYRSF", "name": "Maryrorough", "network_id": "NEM", "network_region": "QLD1", "description": "This facility is situated about 50 kilometres west of Toowoomba, in SE Queensland, and has a generation capacity of 34.5 MWdc (27.3 MWac).
", "units": [ { "code": "MARYRSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 33.0, "data_first_seen": "2020-03-17T17:35:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MEADOWBK", "name": "Meadowbank", "network_id": "NEM", "network_region": "TAS1", "description": "The Meadowbank Power Station is a run-of-the-river hydroelectric power station located in the Central Highlands region of Tasmania, Australia. The power station is situated on the Lower River Derwent catchment and is owned and operated by Hydro Tasmania.
", "units": [ { "code": "MEADOWBK", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 40.0, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MEADOWB2", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 24.0, "emissions_factor_co2": 0.972, "data_first_seen": "2016-03-31T15:30:00+10:00", "data_last_seen": "2016-05-01T08:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0MREH", "name": "Melbourne", "network_id": "NEM", "network_region": "VIC1", "description": "
Equis has launched the Melbourne Renewable Energy Hub (MREH), a globally significant energy storage precinct located 25km northwest of Melbourne\u2019s commercial business district. Fully developed, MREH will be a 1.2GW/2.4GWh Battery Energy Storage System (BESS), the largest such system in Australia and Asia.
Merredin Solar Farm is the largest solar farm in Western Australia and will have an expected output of 281GWh of electricity annually, generating enough energy to power approximately 42,000 Western Australian homes.
", "units": [ { "code": "MERSOLAR_PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 100.0, "data_first_seen": "2020-07-09T12:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "NAMKKN_MERR", "name": "Merredin", "network_id": "WEM", "network_region": "WEM", "description": "Merredin Energy Pty Ltd (MEPL) operates an 82 MW open cycle gas turbine power station in Merredin, Western Australia. The station entered service in mid 2012 and has a minimum operating life of 30 years.
", "units": [ { "code": "NAMKKN_MERR_SG1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 92.6, "emissions_factor_co2": 0.8794, "data_first_seen": "2013-12-17T19:00:00+10:00", "data_last_seen": "2025-04-15T18:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "AMBRISOLAR", "name": "Metro", "network_id": "WEM", "network_region": "WEM", "description": "", "units": [ { "code": "AMBRISOLAR_PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 0.96, "data_first_seen": "2018-09-26T08:00:00+08:00", "data_last_seen": "2025-07-21T07:55:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "METZSF", "name": "Metz N", "network_id": "NEM", "network_region": "NSW1", "description": "Metz Solar Farm is a 135MW solar farm located 15km from Armidale
", "units": [ { "code": "METZSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 135.0, "data_first_seen": "2022-03-29T09:20:00+08:00", "data_last_seen": "2025-07-21T17:10:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MIDDLSF1", "name": "Middlemount", "network_id": "NEM", "network_region": "QLD1", "description": "The Middlemount Sun Farm development site is located around 1km east from the town of Middlemount in central Queensland.
", "units": [ { "code": "MIDDLSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 30.0, "data_first_seen": "2020-12-10T12:10:00+10:00", "data_last_seen": "2025-07-21T17:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MIDLDPS", "name": "Midlands", "network_id": "NEM", "network_region": "TAS1", "description": "", "units": [ { "code": "MIDLDPS1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 6.0, "dispatch_type": "GENERATOR" } ] }, { "code": "MILLMERN", "name": "Millmerran", "network_id": "NEM", "network_region": "QLD1", "description": "The Millmerran Power Station is a coal-fired power station south of Millmerran in the Darling Downs region of Queensland, Australia. The power station was commissioned in 2002 and cost $1.5 billion to build. The power station is owned and operated by InterGen, a multinational company owned by the Ontario Teachers' Pension Plan and AIG Highstar Capital II, a private equity fund sponsored by a subsidiary of American International Group, Inc.The plant takes advantage of the abundant deposits of bituminous coal from the Surat Basin. Fuel is transported via conveyor belt from the open-cut Commodore Mine.Water is supplied via pipeline from the Wetalla sewage treatment plant in Toowoomba. The 850 MW plant uses air cooling technology to reduce water consumption. In 2002, when the plant became operational, wholesale prices for electricity fell by about one third to $20/MWh. This was due to the market strategy to bid at short run marginal cost - so with high efficiency plant and cheap coal, this had a significant impact on the market.
Millmerran Power Station which won the Banksia Environmental Award 2006 in the water category, supplies enough electricity to power approximately 1.1 million homes by selling all its electricity into the National Electricity Market (NEM).Carbon Monitoring for Action estimates this power station emits 5.75 million tonnes of greenhouse gases each year as a result of burning coal. The Australian Government has announced the introduction of a Carbon Pollution Reduction Scheme commencing in 2010 to help combat climate change. It is expected to impact on emissions from power stations. The National Pollutant Inventory provides details of other pollutant emissions, but, as at 23 November 2008, not CO2.
The Mokoan Solar Farm project consists of a 53MWdc solar farm and battery energy storage system (BESS). The solar project is made up of two separate sites Mokoan and the expansion site, located on Lee Road and Nelson Road, Winton, in the Hume Region of Victoria.
The Mokoan Solar Farm received development approval from Benalla Rural City Council in December 2018. The Mokoan Expansion site received development approval from the Victorian Department of Environment, Land, Water and Planning in June 2020. The solar farm covers 94 hectares of land, which has been predominantly used for grazing.
The Molong Solar farm is a 30 MWac Solar Farm located in the central west region of NSW, just north west of Orange.
The site was developed by Terrain Solar and was acquired by TEC-C Investments in November 2017 and is now owned by AMP Energy.
", "units": [ { "code": "MOLNGSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 36.0, "data_first_seen": "2020-11-10T06:25:00+10:00", "data_last_seen": "2025-07-21T17:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MOORAWF1", "name": "Moorabool", "network_id": "NEM", "network_region": "VIC1", "description": "The Project consists of 104 wind turbines located approximately 25km south east of Ballarat.
", "units": [ { "code": "MOORAWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 312.0, "data_first_seen": "2020-11-19T10:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MORANBAH", "name": "Moranbah", "network_id": "NEM", "network_region": "QLD1", "description": "Moranbah Power Station was constructed to supply power to Arrow Energy to operate their gas compressors. Arrow has subsequently sold its interest to Queensland Pacific Metals (QPM).
The Moranbah Power Station utilises the coal seam methane from the Bowen Basin to provide electricity to QPM with the ability to export 50% of it\u2019s capacity to the grid.
EDL owns and operates the 67MW Moranbah North Power Station, which captures and combusts waste coal mine gas and converts it to electricity for the national electricity market.
", "units": [ { "code": "MBAHNTH", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 63.42, "emissions_factor_co2": 0.6378, "data_first_seen": "2014-10-21T01:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MOREESF", "name": "Moree", "network_id": "NEM", "network_region": "NSW1", "description": "Moree Solar Farm is a 56MW photovoltaic solar plant located about 10km south of Moree in New South Wales, Australia.
The plant was one of the largest solar power plants in Australia at the time of its construction and the first that utilises mechanical devices (trackers) to continually orient its solar panels with the sun to increase their power output each day.
Commencing in 2019, the pumping stations are being fitted with solar panel arrays to reduce the cost of pumping water. The first of these was commissioned at Pumping Station Number 3 near Geranium Plains. The second will be at Pumping Station number 4 near Robertstown. The ground under the solar panel arrays will be planted with native grasses and ground covers to suppress dust.
", "units": [ { "code": "MWPS1PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 5.0, "data_first_seen": "2021-03-18T10:35:00+08:00", "data_last_seen": "2025-07-21T17:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "MWPS2PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 5.0, "data_first_seen": "2021-03-16T12:00:00+08:00", "data_last_seen": "2025-07-21T17:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "MWPS3PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 7.0, "data_first_seen": "2020-11-13T16:25:00+08:00", "data_last_seen": "2025-07-21T17:35:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "MWPS4PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 5.0, "data_first_seen": "2021-03-01T10:40:00+08:00", "data_last_seen": "2025-07-21T17:40:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0MORNBESS", "name": "Mornington", "network_id": "NEM", "network_region": "VIC1", "description": "Scheduled for completion in 2025, Mornington BESS is a utility-scale Battery Energy Storage System (BESS) located in Victoria\u2019s Mornington Peninsula.
", "units": [ { "code": "0MORNBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 240.0, "dispatch_type": "GENERATOR" }, { "code": "0MORNBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 240.0, "dispatch_type": "LOAD" } ] }, { "code": "MORNW", "name": "Mornington Disposal", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "MORNW", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.06, "dispatch_type": "GENERATOR" } ] }, { "code": "0MRTLKBESS", "name": "Mortlake", "network_id": "NEM", "network_region": "VIC1", "description": "Origin has approved construction of a large-scale battery at our Mortlake Power Station with a capacity of 300MW, that is expected to deliver output of up to 650MWh.
Mortlake is Victoria\u2019s largest gas-fired generator, with a generation capacity of 566MW.
Located adjacent to the Moorabool to Heywood 500kv transmission line, the power station also sits within Victoria\u2019s South-West Renewable Energy Zone (REZ). Western Victoria is already home to several operating renewable energy generators, and further new renewable energy developments are expected within the South-West REZ.
", "units": [ { "code": "0MRTLKBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 300.0, "dispatch_type": "LOAD" }, { "code": "0MRTLKBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 300.0, "dispatch_type": "GENERATOR" } ] }, { "code": "MORTLK", "name": "Mortlake", "network_id": "NEM", "network_region": "VIC1", "description": "The Mortlake Power Station is a 566 MW open cycle gas-fired power station developed by Origin Energy, located 12 km west of Mortlake, Victoria.Construction of the $640 million power station began in 2008. It was initially due to be operational in 2010, and was completed in August 2012.The plant is located on approximately 20 hectares of land with an extensive buffer zone around it. Although approvals were gained for approximately 1,000 MW, the Mortlake Power Station was built to provide 566MW. It is adjacent to the existing Moorabool to Heywood 500 kV high voltage transmission line. The plant is supplied with natural gas via an 83 km dedicated underground natural gas transmission pipeline from the Otway Gas Plant near Port Campbell, as part of the offshore Otway Gas Project.
", "units": [ { "code": "MORTLK12", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 283.0, "emissions_factor_co2": 0.5518, "data_first_seen": "2011-09-23T17:25:00+10:00", "data_last_seen": "2025-07-17T20:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MORTLK11", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 283.0, "emissions_factor_co2": 0.5518, "data_first_seen": "2011-08-01T15:50:00+10:00", "data_last_seen": "2025-07-20T21:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MRTLSWF", "name": "Mortlake South", "network_id": "NEM", "network_region": "VIC1", "description": "ACCIONA's fifth wind farm in Australia, with 157.5 MW of power and battery storage. The wind farm is being constructed on cleared open and level land that is predominantly used for dairy farming.
", "units": [ { "code": "MRTLSWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 157.5, "data_first_seen": "2022-10-25T18:45:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MLWF", "name": "Mortons Lane", "network_id": "NEM", "network_region": "VIC1", "description": "Mortons Lane Wind Farm consists of 13 Goldwind GW82/1500 wind turbines with generating capacity up to 19.5 megawatts. The wind farm generates approximately 63.69 GWh of clean electricity which is enough to power more than 12,738 households in Victoria and reduce up to 68,148 t CO2 annually. In April 2021, Prime Super, a leading Australian superannuation fund, acquired Mortons Lane. Prime Super\u2019s investment in the project will be managed by PATRIZIA.
The Moyne and Southern Grampians Shires granted planning approval for the proposed Mortons Lane wind farm in June 2007 and the project commenced operations in late 2012 and is expected to operate until 2035, at which point the project may be extended through a repowering or asset life extension. Mortons Lane is proud to support Victoria\u2019s transition to clean energy production.
", "units": [ { "code": "MLWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 19.5, "data_first_seen": "2012-11-13T14:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SKYFRM_MTBARKER", "name": "Mount Barker", "network_id": "WEM", "network_region": "WEM", "description": "The Mt Barker Windfarm was commissioned in March of 2011. The project consists of three 800kW E53 Enercon wind turbines are on a hill on a private sheep farm 4 km north of Mt Barker on the western side of Albany Highway. These wind turbines are bigger than those in Esperance but smaller than those in Albany. As Mt Barker is inland, they are on 73m high towers. The project cost was about $8.5 million in total.
", "units": [ { "code": "SKYFRM_MTBARKER_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 2.43, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MOUSF", "name": "Moura", "network_id": "NEM", "network_region": "QLD1", "description": "Moura Solar Farm is a 110MW project located 6.5km south west of the township of Banana, Queensland.
", "units": [ { "code": "MOUSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 99.0, "data_first_seen": "2022-10-21T13:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MEWF", "name": "Mt Emerald", "network_id": "NEM", "network_region": "QLD1", "description": "Mount Emerald Wind Farm is a 180 MW wind farm situated on Mount Emerald, in Arriga, Shire of Mareeba, Queensland, Australia. It is approximately 8 km WNW of Tolga, and 49 km SW of Cairns. The project is a joint venture between Port Bajool (land owner) and RATCH-Australia (wind farm developer and operator). RATCH-Australia bought the project from Transfield Services in July 2011. The wind farm incorporates 53 turbines.
", "units": [ { "code": "MEWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 180.0, "data_first_seen": "2018-08-20T14:25:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MTGELWF", "name": "Mt Gellibrand", "network_id": "NEM", "network_region": "VIC1", "description": "ACCIONA Energ\u00eda's fourth wind farm in Australia, fully operational since August 2018. The Mt Gellibrand Wind Farm has a capacity of 132 MW and will produce enough clean energy to power some 90,000 Australian homes.
", "units": [ { "code": "MTGELWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 137.98, "data_first_seen": "2018-06-21T16:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MTMERCER", "name": "Mt Mercer", "network_id": "NEM", "network_region": "VIC1", "description": "The Mount Mercer Wind Farm is located at Mount Mercer approximately 30 kilometres south of Ballarat in Western Victoria on 2600ha. The wind farm consists of 64 REpower MM92 wind turbines, giving a total installed capacity of 131 MW.
", "units": [ { "code": "MERCER01", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 131.0, "data_first_seen": "2013-11-25T14:15:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MTMILLAR", "name": "Mt Millar", "network_id": "NEM", "network_region": "SA1", "description": "The Mt Millar Wind Farm was the first wind farm in South Australia to use Enercon E-70 2MW direct drive turbines (don't have gearboxes). It connects to ElectraNet\u2019s existing transmission network at Yadnarie Substation, via a 33 km 132 kV overhead transmission line and substation.
Construction of this wind farm started in late 2004 and was completed in December 2005. Power production started in February 2006. The $130 million project was developed by Tarong Energy.
", "units": [ { "code": "MTMILLAR", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 70.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MP", "name": "Mt Piper", "network_id": "NEM", "network_region": "NSW1", "description": "Mt Piper was originally built in the 1980s, then stored in near fully assembled state, before being commissioned in 1992 and 1993 (Units 2 and 1 respectively). While initially constructed as 660MW machines, both were upgraded to 700MW in 2009, with Unit one upgraded in 2023 to 730MW, using modern turbine technology, bringing the station total to 1430MW. Importantly, the minimum generation of these units has also been lowered to facilitate the modern requirements of lower minimum generation rates to better match the shape of renewables.
", "units": [ { "code": "MP2", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 700.0, "emissions_factor_co2": 0.8691, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MP1", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 730.0, "emissions_factor_co2": 0.8691, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MSTUART", "name": "Mt Stuart", "network_id": "NEM", "network_region": "QLD1", "description": "The Mount Stuart Power Station is a power station located in Stuart, Townsville, Australia. The station runs on kerosene with three gas turbines that generate a combined capacity of 414 MW of electricity. Mount Stuart was commissioned in December 1998, and operates as a peaking plant. It currently runs on kerosene, but can be converted to natural gas.
", "units": [ { "code": "MSTUART1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 144.0, "emissions_factor_co2": 1.0498, "data_first_seen": "1998-12-14T12:50:00+10:00", "data_last_seen": "2025-07-15T20:05:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MSTUART3", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 131.0, "emissions_factor_co2": 1.0498, "data_first_seen": "2009-10-16T13:30:00+10:00", "data_last_seen": "2025-07-16T20:25:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MSTUART2", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 144.0, "emissions_factor_co2": 1.0498, "data_first_seen": "1998-12-23T10:10:00+10:00", "data_last_seen": "2025-07-02T07:45:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MLLFGEF", "name": "Mugga Lane", "network_id": "NEM", "network_region": "NSW1", "description": "LGI designed, built and operates the new 6MW power station, commissioned in June 2020 with 4MW and expanded in 2024 by 50% with a 20MW grid connection. It is currently being upgraded to include a 12MW battery energy storage system (BESS).
", "units": [ { "code": "MLLFGEF1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 4.26, "emissions_factor_co2": 0.1175, "dispatch_type": "GENERATOR" } ] }, { "code": "MLSP", "name": "Mugga Lane", "network_id": "NEM", "network_region": "NSW1", "description": "Mugga Lane Solar Park is a photovoltaic solar power station at Hume in the Australian Capital Territory.
Construction of the Mugga Lane Solar Park at Mugga Lane was completed in March 2017. It is owned by the Maoneng Group, which has been contracted by the Government of the Australian Capital Territory to produce up to 24,600 megawatt hours each year for up to $4.38 million.
The Mugga Lane Solar Park uses sheep for grass and weed control under the solar panels.
", "units": [ { "code": "MLSP1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 12.0, "data_first_seen": "2016-11-16T15:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MUJA_AB", "name": "Muja AB", "network_id": "WEM", "network_region": "WEM", "description": "Muja AB is a retired coal plant with 4x 60MW units.
", "units": [ { "code": "MUJA_M2", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 0.9459, "dispatch_type": "GENERATOR" }, { "code": "MUJA_M1", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 0.9459, "dispatch_type": "GENERATOR" }, { "code": "MUJA_M3", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 0.9459, "dispatch_type": "GENERATOR" }, { "code": "MUJA_M4", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 0.9459, "dispatch_type": "GENERATOR" } ] }, { "code": "MUJA", "name": "Muja CD", "network_id": "WEM", "network_region": "WEM", "description": "Muja Power Station is a power station 22\u00a0km (14\u00a0mi) east of Collie, Western Australia. It has eight steam turbines served by coal-fired boilers that together generate a total capacity of 854 megawatts of electricity. It is the largest power station in the South West Interconnected System, accounting for roughly 15 percent of capacity
", "units": [ { "code": "MUJA_G7", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 212.6, "emissions_factor_co2": 0.92, "data_first_seen": "2013-12-18T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MUJA_G8", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 212.6, "emissions_factor_co2": 0.92, "data_first_seen": "2013-12-18T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MUJA_G5", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 195.8, "emissions_factor_co2": 0.92, "data_first_seen": "2013-12-18T08:00:00+10:00", "data_last_seen": "2022-09-29T10:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MUJA_G6", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 193.6, "emissions_factor_co2": 0.92, "data_first_seen": "2013-12-18T08:00:00+10:00", "data_last_seen": "2025-04-02T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MWF_MUMBIDA", "name": "Mumbida", "network_id": "WEM", "network_region": "WEM", "description": "Mumbida Wind Farm is a 55 MW renewable energy project that was developed by joint venture partners Synergy and Infrastructure Capital Group (ICG). Construction of Mumbida was completed in 2013.
", "units": [ { "code": "MWF_MUMBIDA_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 55.0, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MUNGARRA", "name": "Mungarra", "network_id": "WEM", "network_region": "WEM", "description": "Mungarra Power Station is a power station 50 km south-east of Geraldton, Western Australia. It is natural gas powered with three gas turbines that together generate a total capacity of 112 MW of electricity.
The station was commissioned in 1990.
Munmorah Power Station is a demolished coal fired electricity power station with four 350 MW English Electric steam driven turbo-alternators for a combined capacity of 1,400 MW. The station was located near Doyalson, on the shores of Lake Munmorah, New South Wales, Australia and was owned and operated by Delta Electricity, a company owned by the New South Wales Government.
In July 2012 the coal-fired generators were permanently retired from service. However, the nearby gas-fired Colongra power station, which was commissioned in 2009, remains in operation.
The proposed site includes the construction, operation, maintenance, upgrading and eventual decommissioning of a solar farm located approximately about 19 km from Woolooga and 40 km north-west from Gympie in the QLD Fraser Coast region.
", "units": [ { "code": "0MUNNACRKSF1", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 154.0, "dispatch_type": "GENERATOR" } ] }, { "code": "MUWAWF", "name": "Murra Warra", "network_id": "NEM", "network_region": "VIC1", "description": "The Murra Warra Wind Farm will be one of Australia's largest wind farms. Located on the plains of north-western Victoria, approximately 25 kilometres (16 mi) north of the city of Horsham, it will consist of 99 wind turbines with a maximum tip height of 220m.
The project is expected to produce more than 1800 GWh annually, enough electricity to power about 420,000 average Victorian homes each year, displacing up to 1.7 million tonnes of greenhouse gas emissions each year. The project was developed by a joint venture between RES Group and Macquarie Capital and was sold in two stages to Partners Group in September 2018 and August 2020,
The Murray Region Hydroelectric Power Stations refers to two of the original seven hydroelectric power stations, both located near the town of Khancoban in the Snowy Mountains region of New South Wales, Australia. The two power stations are part of the Snowy Mountains Scheme, a vast hydroelectricity and irrigation complex constructed in south-east Australia between 1949 and 1974 and now run by Snowy Hydro. Although both power stations are physically located in New South Wales, since 1 July 2008 all power generated has been allocated to the Victorian region of the National Electricity Market.
", "units": [ { "code": "MURRAY", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 1500.0, "data_first_seen": "2001-07-15T00:40:00+08:00", "data_last_seen": "2025-07-20T22:10:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MBPS2", "name": "Murray Bridge-Onkaparinga", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "MBPS2PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 13.0, "data_first_seen": "2022-03-08T10:25:00+10:00", "data_last_seen": "2025-07-21T17:45:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "MUSSELRO", "name": "Musselroe", "network_id": "NEM", "network_region": "TAS1", "description": "Musselroe Wind Farm is a wind farm at Cape Portland, Tasmania, Australia. It is third wind farm in the state, being owned and operated by Hydro Tasmania. It consists of 56 Vestas V90-3MW wind turbines, with a generating capacity of 168 MW. The energy output from the Musselroe Wind Farm will be sufficient to supply electricity to around 50,000 households and abate 450,000 tonnes of CO2 emissions annually.The first 37 turbines have been connected to the grid in 2013, and the full farm was completed in January 2014.
", "units": [ { "code": "MUSSELR1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 168.0, "data_first_seen": "2013-03-21T15:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "NASF", "name": "Narromine", "network_id": "NEM", "network_region": "NSW1", "description": "The Dubbo Solar Hub is a renewable electricity project that consists of two separate solar farm sites at South Keswick & Narromine.
The 28 MW Dubbo Solar Hub is one of the first projects completed by Neoen in Australia.
", "units": [ { "code": "NASF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 10.0, "dispatch_type": "GENERATOR" } ] }, { "code": "NEWGEN_NEERABUP", "name": "Neerabup", "network_id": "WEM", "network_region": "WEM", "description": "Neerabup Power Station is situated on the northern outskirts of Perth, Western Australia near the locality of Pinjar and the Pinjar Power Station. It is powered by natural gas, and has a total electrical generation capacity of 330 MW and includes a 30 km high-pressure gas linepack pipeline connected to the Dampier to Bunbury Natural Gas Pipeline.
The station was commissioned in October 2009.
Nevertire Solar Farm Solar Farm is located approximately 100km north west of Dubbo, NSW. It is connected to the 132kV Essential Energy network at the onsite Nevertire substation.
", "units": [ { "code": "NEVERSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 132.0, "data_first_seen": "2019-12-03T07:45:00+10:00", "data_last_seen": "2025-07-21T17:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "NEWENSF", "name": "New England", "network_id": "NEM", "network_region": "NSW1", "description": "The New England Solar and battery project will be Australia\u2019s largest hybrid solar and battery energy storage facility. The 720 megawatt (MW) solar farm will be located across two solar fields near Uralla, NSW in the New England Renewable Energy Zone.
", "units": [ { "code": "NEWENSF2", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 235.0, "data_first_seen": "2022-12-20T11:45:00+10:00", "data_last_seen": "2025-07-21T17:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "NEWENSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 235.0, "data_first_seen": "2023-04-18T08:55:00+10:00", "data_last_seen": "2025-07-21T17:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "0NEWENBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 200.0, "dispatch_type": "LOAD" }, { "code": "0NEWENBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 200.0, "dispatch_type": "GENERATOR" } ] }, { "code": "NEWGEN_KWINANA", "name": "Newgen Kwinana", "network_id": "WEM", "network_region": "WEM", "description": "Situated just 30km south of Perth, the NewGen Power Kwinana station stands as one of Western Australia\u2019s most advanced and efficient intermediate load power stations, providing energy to the South West Interconnected System (SWIS) since 2008.
Leveraging low-emission technologies, the power station actively reduces greenhouse gas emissions and engages in best water efficiency practices through filtration and recycling systems.
", "units": [ { "code": "NEWGEN_KWINANA_CCG1", "fueltech_id": "gas_ccgt", "status_id": "operating", "capacity_registered": 327.8, "emissions_factor_co2": 0.3998, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "NEWPORT", "name": "Newport", "network_id": "NEM", "network_region": "VIC1", "description": "The Newport Power Station was a complex of power stations located on the west bank of the Yarra River, approximately 6 km south-west of Melbourne, Victoria, Australia, in the suburb of Newport. Newport A, B, and C were coal-fired plants which operated at the site between 1919 and the 1980s, and were claimed to be (in terms of the amount of plant) the largest power station in the southern hemisphere in 1953 with 42 boilers and 14 turbo-alternators producing 327 megawatts (439,000 hp).
Newport D is a gas-fired peaking power plant which has operated since 1981. It uses natural gas to generate steam in a boiler which supplies a three-stage steam turbine coupled to a generator to produce up to 510 MW (680,000 hp) of electricity. The plant has a single smokestack 183 m /600 ft in height which towers over the local vicinity.
The power station is owned by Ecogen Energy. The output from Ecogen's Newport and Jeeralang power stations is currently contracted to EnergyAustralia, the country's third-biggest electricity and gas retailer.
The North Brown Hill Wind Farm at Hallett, South Australia consists of 63 wind turbine generators with a total capacity of 132.3-megawatts. It is owned by EII2, in which APA has a 20.2% interest with ICG (39.9%) and Osaka Gas Company Ltd (39.9%). The wind farm has a long-term offtake arrangement with AGL Energy for both the electricity generated and the renewable energy credits produced.
", "units": [ { "code": "NBHWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 132.0, "data_first_seen": "2010-08-14T20:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "NORTHAM_SF", "name": "Northam", "network_id": "WEM", "network_region": "WEM", "description": "The Northam Solar Farm is located on Ballardong Noongar Boodja (country), on the outskirts of the historic wheatbelt town of Northam approximately 100 km from Perth. The 10MW Northam Solar Farm consists of 33,600 solar panels and is constructed over 25 hectares (around 0.25 km2). The solar farm provides renewable, sustainable, zero emission, electricity, powered by Western Australia\u2019s Wheatbelt sunshine.
", "units": [ { "code": "NORTHAM_SF_PV1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 10.0, "data_first_seen": "2018-11-15T09:30:00+10:00", "data_last_seen": "2025-07-17T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TESLA_NORTHAM", "name": "Northam", "network_id": "WEM", "network_region": "WEM", "description": "Commissioned in 2012, Northam is located in Grass Valley east of Northam.
", "units": [ { "code": "TESLA_NORTHAM_G1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 10.0, "emissions_factor_co2": 0.97, "data_first_seen": "2014-02-21T10:30:00+08:00", "data_last_seen": "2025-06-25T12:25:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "NORTHGT", "name": "Northern", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "NGTS", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 50.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1998-12-07T11:45:00+08:00", "data_last_seen": "2001-04-11T12:00:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "NORTHP", "name": "Northern", "network_id": "NEM", "network_region": "SA1", "description": "Northern Power Station was located at Port Paterson in the Australian state of South Australia about 6 kilometres (3.7 mi) south of the city centre of Port Augusta. It was coal powered with two 260 MW steam turbines that generated a total of 520 MW of electricity. It was operated and maintained by Alinta Energy and was commissioned in 1985. Northern received coal by rail from the Leigh Creek Coal Mine, 280 km to the north. The plant ceased electricity production in May 2016 and decommissioned and demolished over the following few years.
", "units": [ { "code": "NPS1", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 265.0, "emissions_factor_co2": 1.1306, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2016-05-09T10:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "NPS2", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 265.0, "emissions_factor_co2": 1.1306, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2016-05-05T23:50:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "NPSNL1", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 100.0, "emissions_factor_co2": 1.1306, "dispatch_type": "GENERATOR" }, { "code": "NPSNL2", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 100.0, "emissions_factor_co2": 1.1306, "dispatch_type": "GENERATOR" } ] }, { "code": "NUMURKSF", "name": "Numurkah", "network_id": "NEM", "network_region": "VIC1", "description": "Numurkah Solar Farm is a solar photovoltaic power station near the town of Numurkah in the Australian state of Victoria.
At its commissioning in 2019, Numurkah was the largest solar farm in Victoria. It cost A$198 million and generates up to 112MWp of AC electricity (installed 128MW DC). It is a leader in harnessing clean energy and retaining the use of farmland via sheep agistment (Agri-Solar). It presently runs upward of 1600 sheep over its 1200 acres. Its primary customers are the Melbourne tram network and Laverton steel works under a power purchase agreement, despite many believing the power goes to these locations directly, the site puts power into the local grid. The Laverton steel works is a scrap iron recycler owned by the GFG Alliance.
The Nyngan Solar Plant or Farm is one of the largest operating solar plants in Australia. At the time of construction, it was the largest solar plant in the southern hemisphere. It is located 10 km west of Nyngan in western New South Wales. It is was built and is operated by AGL Energy.
It has over 1.3 million solar panels, generating 102 megawatts of power. It was opened on 18 April 2015, and became fully operational in July 2015. The Nyngan Solar Plant is associated with the Broken Hill Solar Plant, a 53 megawatt farm located almost 600 km west, which became operational in December 2015,, making the total capacity of the combined plants 155 megawatts. The solar panels do not track the movement of the sun. They are arranged in rows facing north, tilted at 25 degrees.
The Oakey Power Station is a 332 MW power station located at Oakey on the Darling Downs in southern Queensland, adjacent to the Roma to Brisbane Pipeline. The station is an open-cycle, dual liquid/gas-fired power station that typically operates during times of peak electricity demand when Queensland's power needs are greatest. ERM Power led the development of Oakey with commissioning occurring safely and on time in December 1999. ERM Power owns 100% of Oakey and also operates and financially manages the power station.
", "units": [ { "code": "OAKEY2", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 141.0, "emissions_factor_co2": 0.6356, "data_first_seen": "1999-11-20T22:40:00+10:00", "data_last_seen": "2025-07-21T19:25:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "OAKEY1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 141.0, "emissions_factor_co2": 0.6356, "data_first_seen": "1999-09-26T13:05:00+10:00", "data_last_seen": "2025-07-15T19:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "OAKEY1SF", "name": "Oakey", "network_id": "NEM", "network_region": "QLD1", "description": "The Oakey 1 Solar Project is a 25 MW solar generation development located near Oakey, West of Toowoomba in Queensland. The generating plant connects to the Ergon Energy network near Toowoomba. The technology is solar photovoltaic panels mounted on solar tracking structures which will maximize production of energy throughout the day. The solar farm has a total of 88,200 panels (335Wp and 340Wp).
The above PV modules make up a total nameplate capacity of 30 MWdc and the project has a connection agreement with Ergon Energy to export up to 25 MWac. The project is capable of generating approximately 55 GWh of electricity in a calendar year.
", "units": [ { "code": "OAKEY1SF", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 30.0, "data_first_seen": "2019-03-13T08:15:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "OAKEY2SF", "name": "Oakey 2", "network_id": "NEM", "network_region": "QLD1", "description": "The Oakey 2 Solar Project is a 55 MW solar generation development located near Oakey, West of Toowoomba in Queensland. The generating plant connects to the Ergon Energy network near Toowoomba. The technology is solar photovoltaic panels mounted on solar tracking structures which will maximize production of energy throughout the day.
", "units": [ { "code": "OAKEY2SF", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 65.0, "data_first_seen": "2019-09-13T06:10:00+10:00", "data_last_seen": "2025-07-21T17:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "OAKLAND", "name": "Oaklands Hill", "network_id": "NEM", "network_region": "VIC1", "description": "The $200m Oaklands Hill Wind Farm is located on 2,323 hectares of freehold agricultural land 3 km south of Glenthompson, in the shire of Southern Grampians in Western Victoria.
Suzlon Energy Australia Pty Ltd (SEA) was awarded the Engineer Procure & Construct (EPC) contract \u2013 they installed 32 Suzlon S88 turbines with a capacity of 2.1 MW each. Suzlon are also responsible for the ongoing maintenance of the site.
", "units": [ { "code": "OAKLAND1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 67.0, "data_first_seen": "2011-08-25T12:30:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "OCPS", "name": "Oaky Creek", "network_id": "NEM", "network_region": "QLD1", "description": "EDL owns and operates the Oaky Creek I and II Power Stations, which capture and combust waste coal mine gas and convert it to electricity for the National Electricity Market.
", "units": [ { "code": "OAKYCREK", "fueltech_id": "gas_recip", "status_id": "operating", "capacity_registered": 20.0, "emissions_factor_co2": 0.519, "dispatch_type": "GENERATOR" } ] }, { "code": "OAKY2", "name": "Oaky Creek 2", "network_id": "NEM", "network_region": "QLD1", "description": "EDL owns and operates the Oaky Creek I and II Power Stations, which capture and combust waste coal mine gas and convert it to electricity for the National Electricity Market.
", "units": [ { "code": "OAKY2", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 15.0, "emissions_factor_co2": 0.568, "dispatch_type": "GENERATOR" } ] }, { "code": "OSBORNE", "name": "Osborne", "network_id": "NEM", "network_region": "SA1", "description": "The Osborne Power Station is located in Osborne, a northwestern suburb of Adelaide, South Australia.
", "units": [ { "code": "OSB-AG", "fueltech_id": "gas_ccgt", "status_id": "operating", "capacity_registered": 180.0, "emissions_factor_co2": 0.4144, "data_first_seen": "2000-02-15T14:25:00+10:00", "data_last_seen": "2025-07-20T22:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "OSB01", "fueltech_id": "gas_ccgt", "status_id": "retired", "capacity_registered": 120.0, "emissions_factor_co2": 0.5447, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2000-02-16T00:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "OSB02", "fueltech_id": "gas_ccgt", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 0.5447, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2000-02-16T00:00:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PALOONA", "name": "Paloona", "network_id": "NEM", "network_region": "TAS1", "description": "The Paloona Power Station is a conventional hydroelectric power station located in northern Tasmania, Australia.
", "units": [ { "code": "PALOONA", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 28.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PSF", "name": "Parkes", "network_id": "NEM", "network_region": "NSW1", "description": "Initial development started in 2013 with the land lease signed in November 2013. Government Planning Approvals was achieved in June 2014. Construction started in Jan 2017 and was completed in April 2018. It has been operational ever since.
Parkes Solar Farm is one of 12 successful projects that received funding from the Australian Renewable Energy Agency (ARENA) in 2016.
", "units": [ { "code": "PARSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 55.0, "data_first_seen": "2018-02-02T18:35:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PRK_AG", "name": "Parkeston", "network_id": "WEM", "network_region": "WEM", "description": "The simple-cycle Parkeston power plant was developed to provide low-cost electricity to gold mining operations in the surrounding region. TransAlta co-owns the plant, which is located in Kalgoorlie, Western Australia.
", "units": [ { "code": "PRK_AG", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 110.0, "emissions_factor_co2": 0.5813, "data_first_seen": "2013-12-18T07:00:00+10:00", "data_last_seen": "2025-05-27T20:00:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PEDLER", "name": "Pedler Creek", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "PEDLER1", "fueltech_id": "bioenergy_biogas", "status_id": "retired", "capacity_registered": 3.0, "emissions_factor_co2": 0.06, "dispatch_type": "GENERATOR" } ] }, { "code": "NPPPPS", "name": "Pelican Point", "network_id": "NEM", "network_region": "SA1", "description": "The Pelican Point Power Station is located at Pelican Point, 20 km from the centre of Adelaide, South Australia on the Lefevre Peninsula. It is operated by Engie (previously known as GDF Suez Australian Energy), which owns 72 per cent of the power station. Mitsui owns the remaining 28 per cent. It burns natural gas in a combined cycle power station, comprising two 160 MW gas turbines and one 165 MW steam turbine, to generate up to 485 MW of electricity.Construction began in 1999. The plant has two GT13E2 gas turbines manufactured by ABB (now Alstom). The plant, including steam turbine and heat recovery steam generator (HRSG), was manufactured and constructed by ABB.
Fuel is supplied via either the SEAGas pipeline, which runs from the Iona Gas Plant in Victoria to the Pelican Point power station, or the Moomba Adelaide Pipeline System (MAPS), which supplies gas from Moomba to Adelaide.
The $10 million Phillip Island Community Energy Storage System (PICESS) is the first of its kind on the island. Mondo, working with project delivery partner TEC-C, built the battery on behalf of AusNet to provide the community of Phillip Island with a battery that will provide energy support during peak periods.
", "units": [ { "code": "PIBESSG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 7.0, "data_first_seen": "2023-04-19T09:10:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "PIBESSL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 7.0, "data_first_seen": "2023-04-19T08:25:00+08:00", "data_last_seen": "2025-07-21T21:10:00+08:00", "dispatch_type": "LOAD" } ] }, { "code": "PHOENIX_KWINANA_WTE", "name": "Phoenix", "network_id": "WEM", "network_region": "WEM", "description": "This Phoenix Energy development (now owned by Avertas Energy) will be a leader in integrating the disposal of waste with the generation of renewable energy to provide a practical solution to two community challenges: the disposal of significant quantities of household rubbish and establishing additional (baseload) renewable energy supplies for the community. As such, the project is a unique and important renewable energy project for Western Australia and Australia, as it will be the first Waste to Energy (WtE) facility of its kind constructed in Australia.
", "units": [ { "code": "PHOENIX_KWINANA_WTE_G1", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 38.0, "data_first_seen": "2025-04-09T10:25:00+08:00", "data_last_seen": "2025-07-21T07:55:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TESLA_PICTON", "name": "Picton", "network_id": "WEM", "network_region": "WEM", "description": "Commissioned in 2011, Picton is located in Picton East less than 3km from the centre of Bunbury.
", "units": [ { "code": "TESLA_PICTON_G1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 10.0, "emissions_factor_co2": 0.97, "data_first_seen": "2014-03-07T14:30:00+08:00", "data_last_seen": "2025-06-21T11:00:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PINDARI", "name": "Pindari", "network_id": "NEM", "network_region": "NSW1", "description": "Pindari Hydroelectric Power Station was commissioned in April 2002, and is located on the Pindari Dam, near Inverell, on the Severn River in northern NSW. The station comprises two horizontal Francis turbines and has a capacity of 5.7 MW. Pindari Power Station typically generates on summer irrigation and flood mitigation flows.
", "units": [ { "code": "PINDARI", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 5.7, "dispatch_type": "GENERATOR" } ] }, { "code": "PINJAR", "name": "Pinjar", "network_id": "WEM", "network_region": "WEM", "description": "Pinjar Power Station is a power station in Pinjar, on the northern outskirts of Perth, Western Australia and near the locality of Neerabup and the recently commissioned Neerabup Power Station. It is natural gas-powered with nine gas turbines that together generate a total capacity of 576 MW of electricity. Although the power station primarily burns natural gas, it can also burn diesel fuel.
The station was commissioned in 1989. It is used as a peaking power plant.
Pinjarra Power Station is a natural-gas-fired power station in Western Australia. It is a 280 MW base load cogeneration power station located in Alcoa's Pinjarra Alumina Refinery, near the town of Pinjarra, approximately 80 km south of Perth. Generated electricity is sold by Alinta Energy to contracted customers or into the Wholesale Energy Market. In addition to electricity, the power station supplies steam to Alcoa's refinery.
", "units": [ { "code": "ALINTA_PNJ_U2", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 143.0, "emissions_factor_co2": 0.7941, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "ALINTA_PNJ_U1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 143.0, "emissions_factor_co2": 0.7941, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PIONEER", "name": "Pioneer Sugar Mill", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "PIONEER", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 67.78, "emissions_factor_co2": 0.0201, "data_first_seen": "2009-07-01T00:05:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PLAYF", "name": "Playford B", "network_id": "NEM", "network_region": "SA1", "description": "Playford B Power Station was located at Port Paterson in the Australian state of South Australia about 5.5 kilometres (3.4 mi) south of the city centre of Port Augusta. It was coal powered with four 60 MW steam turbines that generated a total of 240 MW of electricity. Playford B received coal by rail from the Leigh Creek Coal Mine, 280 km to the north and drew cooling water from Spencer Gulf, returning it to the sea at an elevated temperature. Commissioned in 1963, it was co-located with the older Playford A Power Station and the larger, newer Northern Power Station. Playford B was mothballed in 2012 and its permanent closure was announced by operator Alinta Energy in October 2015. Prior to being mothballed it primarily operated in the summer, when electricity demand peaks.
", "units": [ { "code": "PLAYFB1", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 1.509, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "1999-04-16T20:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "PLAYFB2", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 1.509, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "1999-05-26T05:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "PLAYFB4", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 1.509, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "1999-05-26T05:40:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "PLAYFB3", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 60.0, "emissions_factor_co2": 1.509, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "1999-05-25T05:40:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "PLAYB-AG", "fueltech_id": "coal_brown", "status_id": "retired", "capacity_registered": 240.0, "emissions_factor_co2": 1.509, "data_first_seen": "1999-05-26T10:30:00+10:00", "data_last_seen": "2012-02-28T13:45:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PTINA", "name": "Poatina", "network_id": "NEM", "network_region": "TAS1", "description": "The station is underground on the northern side of\u00a0yingina / Great Lake.
When Waddmana Power Station was decommissioned, Poatina replaced it in the broader power system. Poatina is ideally located, making use of a steep drop from yingina\u00a0/ Great Lake down the face of the Great Western Tiers. Water that passes through Poatina is subsequently used to generate energy at Trevallyn Power Station.
", "units": [ { "code": "PO110NL1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 25.0, "dispatch_type": "LOAD" }, { "code": "POAT110", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 100.0, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-17T12:25:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "POAT220", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 200.0, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PAREPW", "name": "Port Augusta Energy Park", "network_id": "NEM", "network_region": "SA1", "description": "The Port Augusta Renewable Energy Park is a combined wind and solar farm under construction south of Port Augusta in South Australia, Australia.
", "units": [ { "code": "PAREPW1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 210.0, "data_first_seen": "2022-04-19T18:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "PAREPS1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 99.0, "data_first_seen": "2022-10-04T17:25:00+10:00", "data_last_seen": "2025-07-21T17:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0PLWF", "name": "Port Latta", "network_id": "NEM", "network_region": "TAS1", "description": "The Port Latta Wind Farm (PLWF) is located on cattle grazing farmland in Northwest Tasmania and sits across two properties on approximately seven hectares of privately owned land.
", "units": [ { "code": "0PLWF1", "fueltech_id": "wind", "status_id": "committed", "capacity_registered": 21.0, "dispatch_type": "GENERATOR" } ] }, { "code": "PORTLATT", "name": "Port Latta", "network_id": "NEM", "network_region": "TAS1", "description": "Tempo
Tempo
", "units": [ { "code": "PORTLAT1", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 11.0, "emissions_factor_co2": 0.972, "data_first_seen": "2016-04-01T16:00:00+10:00", "data_last_seen": "2016-05-23T07:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "PORTLCN", "name": "Port Lincoln", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "POR01", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 1.3888, "data_first_seen": "2000-10-06T14:40:00+10:00", "data_last_seen": "2025-06-21T18:25:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "POR03", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 23.5, "emissions_factor_co2": 1.3888, "data_first_seen": "2010-11-13T20:05:00+10:00", "data_last_seen": "2025-03-12T10:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "STANVAC", "name": "Port Stanvac", "network_id": "NEM", "network_region": "SA1", "description": "Port Stanvac Power Station is a diesel-powered electricity generator in South Australia in Lonsdale, an industrial southern suburb of Adelaide. It is owned by Snowy Hydro since 2014. It consists of 36 diesel engines each generating 1.6MW for a total of 58MW of electricity to meet peak demands in the National Electricity Market.The power station was designed by Petro Min Engineers and built by Cummins Power Generation under contract from Infratil. The site had previously been used by the Lonsdale Power Station which was moved to a new site next door in 2011. Snowy Hydro bought assets from Infratil in 2014. These included Lumo Energy, Direct Connect and three diesel peaking generators for a total of 136 MW. The power stations were the Angaston Power Station along with Lonsdale and Port Stanvac.
", "units": [ { "code": "STANV2", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 58.0, "emissions_factor_co2": 0.6749, "dispatch_type": "GENERATOR" }, { "code": "PTSTAN1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 57.6, "emissions_factor_co2": 1.4918, "data_first_seen": "2016-01-12T17:25:00+10:00", "data_last_seen": "2025-07-21T07:20:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "STANV1", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 58.0, "emissions_factor_co2": 0.6749, "dispatch_type": "GENERATOR" } ] }, { "code": "PORTWF", "name": "Portland", "network_id": "NEM", "network_region": "VIC1", "description": "The Portland wind farm is one of Australia's largest wind farms. Located on the coast of south-western Victoria near the city of Portland, it consists of four separate sites, all of which have been completed as of 2015. Completion of the entire 195 MW project was expected in 2011, at a capital cost of A$330 million.
The project is expected to produce more than 500 GWh annually, enough electricity to power about 125,000 homes each year, and equal to more than 7% of Victoria's residential electricity demand, or powering a city the size of Geelong. The project is being developed by Pacific Hydro.
Quarantine Power Station is a gas-powered electricity generation facility near the northern end of Torrens Island in the northwestern suburbs of Adelaide, South Australia. It is at the opposite end of Torrens Island from AGL Energy's Torrens Island and Barker Inlet power stations. It gets its name from the Torrens Island Quarantine Station which was nearby.
The power station is owned by Origin Energy and is configured as a peaking power plant. It has a capacity of 224MW produced by open cycle gas turbines. It was initially installed in 2002 with four Alstom GT10B (now designated Siemens SGT600 after Siemens bought the Alstom Medium sized GT business) turbines generating 95MW of power. It was expanded in 2007 by the addition of a new 120MW General Electric Frame 9E gas turbine set. The power station is fuelled by natural gas, delivered by the EPIC energy & SEAGas pipeline.
As part of the commitments associated with the Berrybank 2\u00a0wind farm, GPG is committed to installing a\u00a020 MW battery energy storage system located within the Australian Capital Territory, which will support the ACT distribution network at the Queanbeyan substation, in partnership with TransGrid, the region\u2019s distribution network service provider.
", "units": [ { "code": "QBYNBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 10.0, "data_first_seen": "2022-07-07T09:05:00+10:00", "data_last_seen": "2025-07-21T20:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "QBYNBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 10.0, "data_first_seen": "2022-07-05T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "QP", "name": "Quorn Park", "network_id": "NEM", "network_region": "NSW1", "description": "The Quorn Park Hybrid Project will consist of the construction and operation of a solar farm consisting of photovoltaic (PV) modules, a Battery Energy Storage System (BESS) and related civil and electrical infrastructure. The Project is in the Parkes Shire, New South Wales, Australia, located approximately 10 km northwest of Parkes.
The construction of the Quorn Park Hybrid Project has an investment value of over $190 million. The project is expected to begin construction in the mid second half 2024, with a targeted start to operations in the first half of 2026.
The Rangebank BESS (Battery Energy Storage System) is an industrial scale BESS to be located in Cranbourne West, Victoria, Australia.
It will provide 200MW / 400MWh capacity of reliable and flexible energy solutions.
Operating since 1993, EDL\u2019s Red Hill power station is WA\u2019s first environmentally sustainable, waste to energy power station converting landfill gas (LFG) to energy.
The Red Hill landfill gas generators use the methane that is produced by the decomposition of organic materials in the Red Hill Waste Management Facility to produce clean, renewable electricity.
", "units": [ { "code": "RED_HILL", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 3.64, "emissions_factor_co2": 0.0769, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "REDBANK1", "name": "Redbank", "network_id": "NEM", "network_region": "NSW1", "description": "Redbank Power Station is located near Singleton, in the Hunter Region, New South Wales, Australia. It was coal powered with one steam driven turbo generator with a capacity of 151 MW of electricity.
The station is currently awaiting a restart of operations after converting to a biomass generator. Upon re-fire, the station will operate using 100% biomass at a capacity of 151MW of electricity.
", "units": [ { "code": "REDBANK1", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 150.0, "emissions_factor_co2": 1.1873, "data_first_seen": "2001-02-23T20:20:00+10:00", "data_last_seen": "2014-11-10T17:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "REECE", "name": "Reece", "network_id": "NEM", "network_region": "TAS1", "description": "The last power station in the Pieman River Power Development before the water runs out to the Southern Ocean, Reece Power Station is located at the foot of the Reece Dam on Lake Pieman. The dam and power station are named after the Honourable Eric Reece who was the Premier of Tasmania (1958\u201369 and 1972\u201375) and a great supporter of the Hydro-Electric Commission.
", "units": [ { "code": "REECE2", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 116.0, "data_first_seen": "2005-05-16T13:35:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "REECE1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 116.0, "data_first_seen": "2005-05-16T13:35:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "REMOUNT", "name": "Remount", "network_id": "NEM", "network_region": "TAS1", "description": "", "units": [ { "code": "REMOUNT", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 2.0, "emissions_factor_co2": 0.0764, "dispatch_type": "GENERATOR" } ] }, { "code": "REPULSE", "name": "Repulse", "network_id": "NEM", "network_region": "TAS1", "description": "The Repulse Power Station is a conventional hydroelectric power station located in the Central Highlands region of Tasmania, Australia. The power station is situated on the Lower River Derwent catchment and is owned and operated by Hydro Tasmania.
", "units": [ { "code": "REPULSE", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 28.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BIOGAS01", "name": "Richgro", "network_id": "WEM", "network_region": "WEM", "description": "", "units": [ { "code": "BIOGAS01", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 2.0, "emissions_factor_co2": 0.057, "data_first_seen": "2015-10-12T08:00:00+10:00", "data_last_seen": "2025-07-21T06:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0RIVERINASF", "name": "Riverina", "network_id": "NEM", "network_region": "NSW1", "description": "Riverina Solar Farm is an approximately 30 MW commercial scale solar station\u00a0located at Yoogali, near Griffith in New South Wales. The project is one of several in the region, which combined could make Griffith a leading renewable energy hub in New South Wales.
", "units": [ { "code": "0RIVERINASF", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 32.4, "dispatch_type": "GENERATOR" } ] }, { "code": "RESS", "name": "Riverina 1", "network_id": "NEM", "network_region": "NSW1", "description": "The combined 150MW / 300MWh Riverina and Darlington Point Energy Storage Systems is located adjacent to TransGrid\u2019s Darlington Point Substation in the Murrumbidgee Shire, South West NSW.
Developed by Edify, the lithium-ion battery serves to add more flexible dispatchable capacity to the NSW market and complement the significant presence of renewable generation in the region.
", "units": [ { "code": "RESS1L", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 80.0, "data_first_seen": "2023-06-27T11:15:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" }, { "code": "RESS1G", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 80.0, "data_first_seen": "2023-06-02T07:15:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "RIVNB", "name": "Riverina 2", "network_id": "NEM", "network_region": "NSW1", "description": "The combined 150MW / 300MWh Riverina and Darlington Point Energy Storage Systems is located adjacent to TransGrid\u2019s Darlington Point Substation in the Murrumbidgee Shire, South West NSW.
Developed by Edify, the lithium-ion battery serves to add more flexible dispatchable capacity to the NSW market and complement the significant presence of renewable generation in the region.
", "units": [ { "code": "RIVNBG2", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 65.0, "data_first_seen": "2023-06-25T11:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "RIVNBL2", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 65.0, "data_first_seen": "2023-06-26T15:05:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "ROCHEDAL", "name": "Rochedale", "network_id": "NEM", "network_region": "QLD1", "description": "This facility is owned and operated by LMS in partnership with Brisbane City Council. The facility was commissioned in 2004 and currently has an installed capacity of 7.7MW.
", "units": [ { "code": "ROCHEDAL", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 7.7, "emissions_factor_co2": 0.0767, "dispatch_type": "GENERATOR" } ] }, { "code": "ROCKINGHAM", "name": "Rockingham", "network_id": "WEM", "network_region": "WEM", "description": "", "units": [ { "code": "ROCKINGHAM", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 4.2, "emissions_factor_co2": 0.0726, "data_first_seen": "2013-12-17T08:30:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "RPCG", "name": "Rocky Point Cogen", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "RPCG", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 30.0, "emissions_factor_co2": 0.0443, "data_first_seen": "2011-01-28T13:15:00+10:00", "data_last_seen": "2025-07-20T00:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "EDLRGNRD", "name": "Roghan Road", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "EDLRGNRD", "fueltech_id": "bioenergy_biogas", "status_id": "retired", "capacity_registered": 2.0, "emissions_factor_co2": 0.062, "dispatch_type": "GENERATOR" } ] }, { "code": "ROMA", "name": "Roma", "network_id": "NEM", "network_region": "QLD1", "description": "The Roma Power Station is a peaking power station and was built and commissioned by the energy business of Boral in 1999, which became Origin in 2000.
", "units": [ { "code": "ROMA_8", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 40.0, "emissions_factor_co2": 0.7664, "data_first_seen": "1999-02-05T14:20:00+08:00", "data_last_seen": "2025-07-21T20:35:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "ROMA_7", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 40.0, "emissions_factor_co2": 0.7664, "data_first_seen": "1999-02-09T12:45:00+08:00", "data_last_seen": "2025-06-02T19:05:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "RRSF", "name": "Ross River", "network_id": "NEM", "network_region": "QLD1", "description": "Ross River Solar Farm has been built on a 202 hectare site that was historically a disused mango farm. The solar farm is \u2018utility scale\u2019 and has the capacity to generate 116 megawatts of clean renewable energy \u2013 enough to power over 54,000 homes.
Ross River Solar Farm has 413,280 solar panels installed on single axis tracking systems that allow its panels to rotate and capture the maximum amount of sunlight. Each of the farm\u2019s crystalline solar photovoltaic panels are identical in type but larger in size to those used on household rooftops throughout Australia.
", "units": [ { "code": "RRSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 128.0, "data_first_seen": "2018-09-12T10:45:00+10:00", "data_last_seen": "2025-07-21T17:00:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "ROWALLAN", "name": "Rowallan", "network_id": "NEM", "network_region": "TAS1", "description": "The Rowallan Power Station is a conventional hydroelectric power station located in north-western Tasmania, Australia. The station is located 25 kilometres (16 mi) south of Liena.
", "units": [ { "code": "ROWALLAN", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 10.5, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "ROYALLA", "name": "Royalla", "network_id": "NEM", "network_region": "NSW1", "description": "Located 23 kilometers south of the capital Canberra, at the time of completion, the Royalla Solar Farm was once the largest photovoltaic plant in Australia with 20 MW rated capacity (24 MWp) and around 82,000 solar panels installed on 41 kilometers of fixed structures.
The Royalla PV plant\u00a0was the first solar installation built by ACCIONA in Australia, acting as a\u00a0contractor for the development company FRV.
", "units": [ { "code": "ROYALLA1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 20.0, "data_first_seen": "2016-04-23T07:00:00+10:00", "data_last_seen": "2025-07-21T17:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "RUBICON", "name": "Rubicon", "network_id": "NEM", "network_region": "VIC1", "description": "The Rubicon Hydroelectric Scheme is a small run-of-river hydroelectric scheme located on the Rubicon and Royston Rivers, north east of Melbourne, 40\u00a0km (25\u00a0mi) south-west of Alexandra, Victoria, Australia. The scheme commenced in 1922, and was the first state-owned hydroelectric scheme to generate electricity in mainland Australia, and among the first in the world to be remotely controlled. For the first ten years of its operation it supplied on average 16.9% of electricity generated by the State Electricity Commission of Victoria. It is now owned and operated by AGL Energy and contributes approximately 0.02% of Victoria's energy supply.
", "units": [ { "code": "RUBICON", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 13.0, "data_first_seen": "2010-03-04T16:00:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "RUGBYR", "name": "Rugby Run", "network_id": "NEM", "network_region": "QLD1", "description": "Located near the town of Moranbah in Central Queensland, the Rugby Run solar farm is Bravus\u2019 flagship solar investment in Australia. Officially opened in October 2019, the Rugby Run solar farm features 247,000 solar panels which generate 185,000MWh of power each year. Rugby Run has a power purchase agreement to sell 80 per cent of the energy generated.
", "units": [ { "code": "RUGBYR1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 83.0, "data_first_seen": "2019-05-28T11:10:00+10:00", "data_last_seen": "2025-07-21T17:30:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "RYANCWF", "name": "Ryan Corner", "network_id": "NEM", "network_region": "VIC1", "description": "The Ryan Corner Wind Farm site is located in South-Western Victoria near the township of Yambuk, 16.5km north west of Port Fairy within the Moyne Shire Local Government Area.
The project covers an area of approximately 3,388 Ha, where the current land use is primarily agricultural activities including grazing of sheep and cattle.
The windfarm comprises 52 turbines with a total output of approximately 218.4MW. It will connect to the grid via a 132kV overhead transmission circuit to the existing 500kV Tarrone Terminal Station.
", "units": [ { "code": "RYANCWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 218.4, "data_first_seen": "2024-07-30T03:25:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "RYEPARK", "name": "Rye Park", "network_id": "NEM", "network_region": "NSW1", "description": "The Rye Park Wind Farm is located to the north of Yass and east of Boorowa, New South Wales, on the edge of the Southern Tablelands and the South-West Slopes near the township of Rye Park. The project area spans the Hilltops, Upper Lachlan and Yass Valley local government areas, located 11 km north-east of Yass on predominately stock farming land.
", "units": [ { "code": "RYEPARK1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 396.0, "data_first_seen": "2023-08-18T09:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SALTCRK", "name": "Salt Creek", "network_id": "NEM", "network_region": "VIC1", "description": "Financial close for the project was reached on June 30, 2017. Construction of the Salt Creek Wind Farm commenced in September 2017 and was completed in late July 2018.
", "units": [ { "code": "SALTCRK1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 54.0, "data_first_seen": "2018-06-06T16:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SAPHWF1", "name": "Sapphire", "network_id": "NEM", "network_region": "NSW1", "description": "Sapphire Wind Farm is a wind farm in the Australian state of New South Wales. When it was built in 2018, it was the largest wind farm in New South Wales. It is in the New England region of northern New South Wales, 28 kilometres (17 mi) east of Inverell and 18 kilometres (11 mi) west of Glen Innes. It is north of the Gwydir Highway. The White Rock and Glen Innes Wind Farms are south of the highway closer to Glen Innes. It is intended to be colocated with a 200 MW solar farm. The wind farm contains 75 Vestas V126 turbines, each of which can generate 3.6 MW of electricity. They have a 137-metre hub height and 126-metre rotor diameter. The project is approved to build up to 109 wind turbines.
", "units": [ { "code": "SAPHWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 270.0, "data_first_seen": "2018-02-01T19:30:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SEBSF", "name": "Sebastopol", "network_id": "NEM", "network_region": "NSW1", "description": "Sebastopol Solar Farm uses the latest in solar energy generation technology to generate clean, zero emissions energy to meet the region\u2019s energy needs. It is located on private land approximately 16 kilometres south of Temora in New South Wales. The site covers approximately 248 hectares of agricultural land that is still used for livestock grazing.
Construction of the solar farm was completed mid-December 2021 and commissioning was finished in July 2022, with operations now underway. The project received development approval in February 2019. Construction of the project took 14 months. During construction 150 people were employed, many from the local area. Three people are employed on an ongoing basis to support the operations and maintenance of the solar farm which is expected to have an operating life of around 30 years.
Organic rich wastwater from Shepparton\u2019s local community and food processing industry (including the SPC Ardmona processing factory) flows into Goulburn Valley Water\u2019s Shepparton Wastewater Treatment Plant, producing a methane-rich biogas from the anaerobic digestion process. The biogas is captured and cleaned as the fuel source for the generator, and\u00a0the renewable electricity is fed into the national grid.
The Shepparton facility was a lead and significant part of the \u2018Resource Recovery Precinct\u2019 that won the 2010 United Nations World Environment Day \u2018Best Business Environmental Initiative\u2019 award.
The Shoalhaven Scheme is a dual-purpose water supply and Pumped-storage Hydroelectricity scheme located on the South Coast region of New South Wales, Australia.
", "units": [ { "code": "SHPUMP", "fueltech_id": "pumps", "status_id": "operating", "capacity_registered": 240.0, "data_first_seen": "1998-12-09T05:05:00+10:00", "data_last_seen": "2025-07-18T16:05:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SHGEN", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 240.0, "data_first_seen": "1998-12-07T11:45:00+10:00", "data_last_seen": "2025-07-20T21:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SHOAL", "name": "Shoalhaven Starches", "network_id": "NEM", "network_region": "NSW1", "description": "Manildra Group commissioned GE Gas Power to deliver a secure supply of electricity and steam. GE technology offered a turnkey solution for the complete cogeneration plant. GE will provide Manildra Group's Shoalhaven Starches site operations with two LM2500+ aeroderivative gas turbines, two Heat Recovery Steam Generators (HRSG) with fresh air firing and associated Balance of Plant to electricity and steam on a continuous basis.
The Silverton Wind Farm is a 199 megawatt wind farm situated on the Barrier Ranges in New South Wales, built for AGL Energy by CATCON and General Electric.On 3 June 2009, the project was approved by the NSW state Government.The project was initially set to begin construction in the first half of 2010, yet several issues caused delays. To begin, the transmission line needed to connect the fully developed wind farm would need to be as long as 300 km, and due to multiple connection options, as well as an expected large cost of the infrastructure, the decision of the final solution was delayed.In 2012, the start-date for construction of the wind farm has been pushed back to 2014, after AGL Energy decided to give priority to building two solar photovoltaic plants which have received almost A$200m in government funding.The project's planning approval was set to expire on 24 May 2016, however AGL submitted a Modification Application on 25 February 2016 with the sole aim to extend the project's Planning Approval expiry to 2021. On 3 June 2016 that application was granted, giving AGL the option to optimise and build the project within their Powering Australian Renewables Fund. The project secured a Power Purchase Agreement with EnergyAustralia for supply of 60% of its annual output until December 2030.On 16 May 2017, AGL announced construction had commenced.As of 2019, it had been completed and is now operating. The project uses General Electric 3.43-130 wind turbines with a hub height of 110m.
", "units": [ { "code": "STWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 198.0, "data_first_seen": "2018-05-15T09:00:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0SMITHBESS", "name": "Smithfield", "network_id": "NEM", "network_region": "NSW1", "description": "The Smithfield Battery Energy Storage System (BESS) is a 65 MW / 130 MWh battery system currently under development. The project is located on Darug land in Smithfield, approximately 30km from Sydney CBD.
This project will be co-located with the existing operational Smithfield Open Cycle Gas Turbine Gas Peaker plant owned by Iberdrola Australia.
", "units": [ { "code": "0SMITHBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 65.0, "dispatch_type": "LOAD" }, { "code": "0SMITHBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 65.0, "dispatch_type": "GENERATOR" } ] }, { "code": "SITHE", "name": "Smithfield", "network_id": "NEM", "network_region": "NSW1", "description": "Smithfield OCGT has a fifteen minute start time, enabling the asset to capture high electricity price events. As a peaking generator, Smithfield OCGT operates with very low capacity utilisation, estimated at 2-8% per annum.
Smithfield OCGT was acquired by Iberdrola Australia in May 2019.
", "units": [ { "code": "SITHE01", "fueltech_id": "gas_ccgt", "status_id": "operating", "capacity_registered": 187.0, "emissions_factor_co2": 0.7156, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T08:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SNAPPER", "name": "Snapper Point", "network_id": "NEM", "network_region": "SA1", "description": "The Snapper Point Power Station is a gas turbine power station under development at Outer Harbor, South Australia, beside the older Pelican Point Power Station.
", "units": [ { "code": "SNAPPER1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 154.0, "emissions_factor_co2": 0.7364, "data_first_seen": "2022-01-19T08:15:00+10:00", "data_last_seen": "2025-07-20T18:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SNOWTOWN", "name": "Snowtown", "network_id": "NEM", "network_region": "SA1", "description": "The Snowtown wind farms are located on the Barunga and Hummocks ranges west of Snowtown in the Mid North of South Australia, around 150 kilometres (93 mi) north of the state capital, Adelaide. They were developed by Trustpower and owned by Tilt Renewables, which demerged from Trustpower in 2016. The first stage of 47 turbines was completed in 2008 and Stage 2 of 90 turbines became operational in 2014. Stage 2 was sold by Tilt Renewables to Palisade Investment Partners in December 2019.
", "units": [ { "code": "SNOWTWN1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 99.0, "data_first_seen": "2008-04-18T16:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SNOWNTH", "name": "Snowtown North", "network_id": "NEM", "network_region": "SA1", "description": "Snowtown Wind Farm 2 is located approximately 170 km north of Adelaide in South Australia.
Snowtown Wind Farm 2 was initially commissioned in October 2014 using Siemens direct drive turbines. The 270 MW (144MW for Snowtown North) windfarm generates an average of 875GWh of electricity per year.
Following its acquisition in 2019, Snowtown Wind Farm 2 is now owned by Australian superannuation fund investors whose investment is managed by Palisade Investment Partners Pty Ltd, Hesta and First State Super.
", "units": [ { "code": "SNOWNTH1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 144.0, "data_first_seen": "2014-02-10T17:30:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SNOWSTH", "name": "Snowtown South", "network_id": "NEM", "network_region": "SA1", "description": "Snowtown Wind Farm 2 is located approximately 170 km north of Adelaide in South Australia.
Snowtown Wind Farm 2 was initially commissioned in October 2014 using Siemens direct drive turbines. The 270 MW (144MW for Snowtown North) windfarm generates an average of 875GWh of electricity per year.
Following its acquisition in 2019, Snowtown Wind Farm 2 is now owned by Australian superannuation fund investors whose investment is managed by Palisade Investment Partners Pty Ltd, Hesta and First State Super.
", "units": [ { "code": "SNOWSTH1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 126.0, "data_first_seen": "2013-10-03T09:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SNOWY4", "name": "Snowy", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "SNOWY4", "fueltech_id": "hydro", "status_id": "retired", "data_first_seen": "1998-12-07T04:15:00+10:00", "data_last_seen": "2001-03-26T16:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SNOWY5", "name": "Snowy", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "SNOWY5", "fueltech_id": "hydro", "status_id": "retired", "data_first_seen": "1998-12-07T09:15:00+10:00", "data_last_seen": "2001-07-13T22:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0SNOWY20", "name": "Snowy 2.0", "network_id": "NEM", "network_region": "NSW1", "description": "Snowy 2.0 Pumped Storage Power Station or Snowy Hydro 2.0 or simply Snowy 2.0 is a pumped-hydro battery megaproject in New South Wales, Australia. The dispatchable generation project expands upon the original Snowy Mountains Scheme (ex post facto Snowy 1.0) connecting two existing dams through a 27-kilometre underground tunnel and a new, underground pumped-hydro power station. Construction began in 2019.
", "units": [ { "code": "0SNOWY201", "fueltech_id": "hydro", "status_id": "committed", "capacity_registered": 1468.0, "dispatch_type": "GENERATOR" }, { "code": "0SNOWY202", "fueltech_id": "hydro", "status_id": "committed", "capacity_registered": 732.0, "dispatch_type": "GENERATOR" } ] }, { "code": "SNUG", "name": "Snuggery", "network_id": "NEM", "network_region": "SA1", "description": "Snuggery Power Station is a power station near Tantanoola in the Limestone Coast region of South Australia. It was built in 1978. It is now owned by Synergen Power, a subsidiary of Engie Energy International.The power station has a generating capacity of 63 MW, consisting of three diesel-fueled open cycle gas turbines. It is used as a peaking power plant.
", "units": [ { "code": "SNUG1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 21.0, "emissions_factor_co2": 1.066, "data_first_seen": "1998-12-07T09:25:00+10:00", "data_last_seen": "2025-07-21T17:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SNUG2", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 21.0, "emissions_factor_co2": 1.066, "dispatch_type": "GENERATOR" }, { "code": "SNUG3", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 21.0, "emissions_factor_co2": 1.066, "dispatch_type": "GENERATOR" }, { "code": "SNUGNL1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 21.0, "emissions_factor_co2": 1.066, "dispatch_type": "GENERATOR" } ] }, { "code": "AGLSOM", "name": "Somerton", "network_id": "NEM", "network_region": "VIC1", "description": "The Somerton Power Station is an open cycle, gas turbine power station located in the Melbourne suburb of Somerton, Victoria, Australia. It is owned and operated by AGL Energy. The facility normally operates three or four hours at a time as a peaking power plant, but is able to run 24 hours a day, seven days a week if required.
The plant cost $125 million to build, with the 2003 opening being delayed by environmental concerns and technical issues. The plant uses four second-hand 37.5MW GT-1 Frame 6B gas turbines, manufactured under license to GE by Alstom and Thomassen International.
This facility is owned and operated by LMS in partnership with Western Australian Landfill Services (WALS). The facility was commissioned in 2005 and has an installed capacity of 4.1MW.
", "units": [ { "code": "SOUTH_CARDUP", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 4.16, "emissions_factor_co2": 0.0802, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SKSF", "name": "South Keswick", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "SKSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 15.0, "dispatch_type": "GENERATOR" } ] }, { "code": "STHBKTEC", "name": "Southbank Institute Of Technology", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "STHBKTEC", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 1.0, "emissions_factor_co2": 0.957, "dispatch_type": "GENERATOR" } ] }, { "code": "SVALE", "name": "Springvale", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "SVALE1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 4.2, "emissions_factor_co2": 0.0785, "dispatch_type": "GENERATOR" } ] }, { "code": "STGEORGE", "name": "St George Leagues Club", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "STGEORG1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.812, "dispatch_type": "GENERATOR" } ] }, { "code": "SLDCBLK", "name": "St Leonards Data Centre", "network_id": "NEM", "network_region": "TAS1", "units": [ { "code": "SLDCBLK1", "fueltech_id": "battery_charging", "status_id": "retired", "capacity_registered": 20.0, "emissions_factor_co2": 0.0, "data_first_seen": "2022-01-25T01:05:00+08:00", "data_last_seen": "2022-09-27T14:15:00+08:00", "dispatch_type": "LOAD" } ] }, { "code": "0STANBESS", "name": "Stanwell", "network_id": "NEM", "network_region": "QLD1", "description": "The Stanwell Battery Energy Storage System (BESS) will provide essential firming capacity to support the renewable projects we have planned in Central Queensland. At 300MW capacity and four hours storage duration, it is the largest committed battery project in Queensland.
", "units": [ { "code": "0STANBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 300.0, "dispatch_type": "LOAD" }, { "code": "0STANBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 300.0, "dispatch_type": "GENERATOR" } ] }, { "code": "STANWELL", "name": "Stanwell", "network_id": "NEM", "network_region": "QLD1", "description": "Stanwell Power Station is a coal-fired power generation station located in Stanwell, 23 kilometres (14 mi) south-west of Rockhampton, Queensland, Australia. At the time of construction, it was one of the largest industrial developments undertaken in Queensland. With a capacity to generate 1,445 megawatts (MW), Stanwell Power Station supplies electricity for distribution to customers via the state's high voltage electricity grid.Stanwell became fully operational in 1996 and is located on 4,000 acres (1,600 hectares) of land. Construction of the station took seven years, with infrastructure built to withstand cyclonic winds.
", "units": [ { "code": "STAN-1", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 365.0, "emissions_factor_co2": 0.8571, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "STAN-2", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 365.0, "emissions_factor_co2": 0.8571, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "STAN-4", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 365.0, "emissions_factor_co2": 0.8571, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "STAN-3", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 365.0, "emissions_factor_co2": 0.8571, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "STAPYLTON", "name": "Stapylton", "network_id": "NEM", "network_region": "QLD1", "description": "This facility is owned and operated by LMS in partnership with Gold Coast City Council and has an installed capacity of 3.5MW.
", "units": [ { "code": "STAPYLTON1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 3.0, "emissions_factor_co2": 0.075, "dispatch_type": "GENERATOR" } ] }, { "code": "STARFHILL", "name": "Starfish Hill", "network_id": "NEM", "network_region": "SA1", "description": "Starfish Hill Wind Farm is a wind power station spread over two hills near Cape Jervis, South Australia. It has 22 wind turbines, eight on Starfish Hill itself and 14 on Salt Creek Hill, with a combined generating capacity of 33 MW of electricity.
Starfish Hill Wind Farm was commissioned in September 2003, making it the first major wind farm in the state. On 30 October 2010, one of the original 23 turbines caught fire and was destroyed. It was not replaced, leaving the wind farm with 22 turbines.Starfish Hill Wind Farm was developed by Tarong Energy at a cost of $65 million. RATCH-Australia (at that time part of Transfield Services) acquired the wind farm in December 2007.
Stockyard Hill Wind Farm is a wind farm project under construction in Victoria (Australia). As of June 2020, 1 of a planned 149 turbines was operational and connected to the grid.[1] When it is complete, it is expected to produce up to 530MW, which would be Australia's largest wind farm.
", "units": [ { "code": "STOCKYD1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 531.0, "data_first_seen": "2021-07-08T00:05:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0STUBBOSF", "name": "Stubbo", "network_id": "NEM", "network_region": "NSW1", "description": "Stubbo Solar is a 400-megawatt (MW) large scale solar project approved by the NSW Department of Planning, Industry and Environment in July 2021. It is currently in construction across 1,250 hectares of mostly cleared grazing land in the Central West region of NSW.
It is being constructed by EPC contracting partner PCL Construction.
", "units": [ { "code": "STUBSF2", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 248.0, "data_first_seen": "2024-12-19T09:00:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "STUBSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 255.0, "data_first_seen": "2024-12-19T09:00:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0SUMMFBESS", "name": "Summerfield", "network_id": "NEM", "network_region": "SA1", "description": "The Summerfield Battery is a large-scale four-hour duration battery storage project that will supply energy to South Australians and the national electricity grid to support Australia\u2019s renewable energy transition.
", "units": [ { "code": "0SUMMFBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 240.0, "dispatch_type": "LOAD" }, { "code": "0SUMMFBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 240.0, "dispatch_type": "GENERATOR" } ] }, { "code": "SMCSF", "name": "Sun Metals", "network_id": "NEM", "network_region": "QLD1", "description": "The Sun Metals Solar Farm is a photovoltaic solar power station near Townsville in the Australian state of Queensland. It supplies some of the electricity consumed by the nearby Sun Metals (a subsidiary of Korea Zinc) zinc refinery as well as exporting to the National Electricity Market. When the Sun Metals Solar Farm started exporting electricity to the grid in May 2018, it took over from Clare Solar Farm as the largest capacity solar farm in Queensland.Construction was undertaken by RCR Tomlinson. The solar farm is connected to the refinery's existing 33/132kV substation and consists of over 1 million solar panels.The photovoltaic cells are thin-film with single axis tracking.
", "units": [ { "code": "SMCSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 143.0, "data_first_seen": "2018-05-30T07:00:00+10:00", "data_last_seen": "2025-07-21T17:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SUNCOAST", "name": "Suncoast Gold Macadamias", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "SUNCOAST", "fueltech_id": "bioenergy_biomass", "status_id": "retired", "capacity_registered": 1.0, "emissions_factor_co2": 0.0216, "dispatch_type": "GENERATOR" } ] }, { "code": "SUNRSF1", "name": "Sunraysia", "network_id": "NEM", "network_region": "NSW1", "description": "Scheduled for completion in 2020, Sunraysia Solar Farm is a utility-scale solar photovoltaic (PV) farm near Balranald in southern New South Wales.
", "units": [ { "code": "SUNRSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 228.0, "data_first_seen": "2020-11-10T01:05:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "VALDORA", "name": "Sunshine Coast", "network_id": "NEM", "network_region": "QLD1", "description": "The Sunshine Coast Solar Farm is a photovoltaic power station operating on a 24 hectares (59 acres) site in Valdora in the Sunshine Coast near Yandina, in Queensland, Australia. The station has a maximum generating capacity of 15 megawatts, generated from 57,850 photovoltaic panels.
", "units": [ { "code": "VALDORA1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 15.0, "dispatch_type": "GENERATOR" } ] }, { "code": "SUNTPSF", "name": "Suntop", "network_id": "NEM", "network_region": "NSW1", "description": "Suntop Solar Farm is located near Wellington, south of Dubbo in regional New South Wales. The site will accommodate a large-scale solar PV system utilising single-axis tracking, and ground mounted panels which will generate 395GWh of energy throughout the year. Single-axis tracking has been selected for this project to harness the highest amount of solar irradiance as the panels will track the sun\u2019s movement east to west each day.
", "units": [ { "code": "SUNTPSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 175.0, "data_first_seen": "2021-08-04T18:05:00+10:00", "data_last_seen": "2025-07-21T17:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0SUPERNODE", "name": "Supernode", "network_id": "NEM", "network_region": "QLD1", "description": "The South Pine switchyard is the central node of the Queensland electricity transmission network, 80% of Queensland\u2019s total electricity flows through this \u2018supernode\u2019 on a daily basis. Quinbrook\u2019s Supernode Data Centre and Battery Energy Storage Site (\u2018BESS\u2019) site, located adjacent to the South Pine switchyard, will host one of the largest battery storage installations in the Australian National Electricity Market. The 750 MW (2 \u2013 4 Hour) BESS offers large power users an innovative solution to obtain stable power supply and overcome the critical stability issues facing the Queensland power grid as recently identified by AEMO.
", "units": [ { "code": "0SUPERNODEG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 250.0, "dispatch_type": "GENERATOR" }, { "code": "0SUPERNODEL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 250.0, "dispatch_type": "LOAD" }, { "code": "SNBL01", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 260.0, "dispatch_type": "LOAD" }, { "code": "SNBG01", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 260.0, "dispatch_type": "GENERATOR" } ] }, { "code": "0SUPERNODE2", "name": "Supernode 2", "network_id": "NEM", "network_region": "QLD1", "description": "The South Pine switchyard is the central node of the Queensland electricity transmission network, 80% of Queensland\u2019s total electricity flows through this \u2018supernode\u2019 on a daily basis. Quinbrook\u2019s Supernode Data Centre and Battery Energy Storage Site (\u2018BESS\u2019) site, located adjacent to the South Pine switchyard, will host one of the largest battery storage installations in the Australian National Electricity Market. The 750 MW (2 \u2013 4 Hour) BESS offers large power users an innovative solution to obtain stable power supply and overcome the critical stability issues facing the Queensland power grid as recently identified by AEMO.
", "units": [ { "code": "SNBL02", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 260.0, "dispatch_type": "LOAD" } ] }, { "code": "SRSF", "name": "Susan River", "network_id": "NEM", "network_region": "QLD1", "description": "Susan River Solar Farm is a 95MW project located 17km south of Hervey Bay, Queensland.
The project began exporting electricity in 2018 and is connected to the national grid via Ergon Energy's network.
", "units": [ { "code": "SRSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 85.0, "data_first_seen": "2018-12-28T14:40:00+08:00", "data_last_seen": "2025-07-21T17:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0SWANBBESS", "name": "Swanbank", "network_id": "NEM", "network_region": "QLD1", "description": "Formerly the home of two coal-fired power stations (A and B), CleanCo is redeveloping our Swanbank site into a Clean Energy Hub featuring a range of future energy generation and storage technologies.
The first major project is the Swanbank Battery - the first big battery to be built in Ipswich.
", "units": [ { "code": "0SWANBBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 250.0, "dispatch_type": "LOAD" }, { "code": "0SWANBBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 250.0, "dispatch_type": "GENERATOR" } ] }, { "code": "SWAN_B", "name": "Swanbank B", "network_id": "NEM", "network_region": "QLD1", "units": [ { "code": "SWAN_A_3", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 66.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1999-01-04T14:50:00+10:00", "data_last_seen": "2002-06-28T21:35:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_A_4", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 66.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1998-12-08T11:15:00+10:00", "data_last_seen": "2002-06-28T23:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_B_3", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 125.0, "emissions_factor_co2": 1.091, "data_first_seen": "1998-12-07T04:00:00+10:00", "data_last_seen": "2012-05-24T12:35:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_B_4", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 125.0, "emissions_factor_co2": 1.091, "data_first_seen": "1998-12-07T05:05:00+10:00", "data_last_seen": "2010-06-01T14:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "MRIDGE", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 56.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1999-01-14T18:00:00+10:00", "data_last_seen": "2000-02-25T23:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_A_1", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 66.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1998-12-07T06:35:00+10:00", "data_last_seen": "2002-05-14T19:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_A_5", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 66.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1998-12-21T13:35:00+10:00", "data_last_seen": "2001-09-25T22:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_D", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 37.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1999-02-02T14:20:00+10:00", "data_last_seen": "2004-04-24T16:50:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_B_1", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 125.0, "emissions_factor_co2": 1.091, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2011-05-15T10:25:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_B_2", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 125.0, "emissions_factor_co2": 1.091, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2010-06-28T19:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_A_6", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 66.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1998-12-07T08:30:00+10:00", "data_last_seen": "2002-06-14T22:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_C", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 28.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1999-05-10T09:00:00+10:00", "data_last_seen": "2002-03-22T12:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "SWAN_A_2", "fueltech_id": "gas_ocgt", "status_id": "retired", "capacity_registered": 66.0, "emissions_factor_co2": 0.8715, "data_first_seen": "1998-12-07T08:15:00+10:00", "data_last_seen": "2002-06-26T23:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SWAN_E", "name": "Swanbank E", "network_id": "NEM", "network_region": "QLD1", "description": "Swanbank E was commissioned in 2002 with a single 385 megawatts combined cycle gas turbine. The gas turbine of Swanbank E was the largest of its type at the time of its commissioning.
", "units": [ { "code": "SWAN_E", "fueltech_id": "gas_ccgt", "status_id": "operating", "capacity_registered": 385.0, "emissions_factor_co2": 0.401, "data_first_seen": "2002-05-21T10:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TABMILL2", "name": "Tableland Mill", "network_id": "NEM", "network_region": "QLD1", "description": "The $100 million green energy power plant at the Tableland Mill converts 100 per cent renewable sugarcane fibre, known as bagasse, into green energy.
The power plant produces 24 megawatts of electricity \u2013 enough to power 26,280 homes \u2013 which is the entire population of the Tableland region.
", "units": [ { "code": "TABMILL2", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 24.0, "emissions_factor_co2": 0.0201, "dispatch_type": "GENERATOR" } ] }, { "code": "TAHMOOR", "name": "Tahmoor", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "TAHMOOR1", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 7.0, "emissions_factor_co2": 0.5689, "dispatch_type": "GENERATOR" } ] }, { "code": "TBSF", "name": "Tailem Bend", "network_id": "NEM", "network_region": "SA1", "description": "The Tailem Bend Solar Power Farm is a solar power farm near Tailem Bend in South Australia. It has 108MW of generation capacity but is limited to supplying 95MW to the national grid. It is developed and owned by Singapore-based Vena Energy, a new name for the former Equis Energy following acquisition by Global Infrastructure Partners in January 2018. The output will be sold to Snowy Hydro for retail sale under its Lumo Energy brand.
The solar farm covers 200 hectares of land with more than 390,000 photovoltaic solar panels.
", "units": [ { "code": "TBSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 108.0, "data_first_seen": "2019-02-28T12:55:00+10:00", "data_last_seen": "2025-07-21T17:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TB2SF", "name": "Tailem Bend 2", "network_id": "NEM", "network_region": "SA1", "description": "The Tailem Bend 2 Hybrid Project is the second stage of the Tailem Bend Project and is immediately co-located, with the Tailem Bend Solar 1 Project that is situated immediately south of Substation Road. The Hybrid Project incorporates a second solar farm, a battery energy storage system, and the construction of a new bay in the existing Coorong Substation.
", "units": [ { "code": "TB2SF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 105.0, "data_first_seen": "2023-08-25T09:05:00+10:00", "data_last_seen": "2025-07-21T17:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TB2BG1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 50.0, "data_first_seen": "2023-10-27T13:25:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "LOAD" }, { "code": "TB2BL1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 50.0, "data_first_seen": "2024-07-03T09:25:00+10:00", "data_last_seen": "2025-07-21T20:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TALLAWAR", "name": "Tallawarra", "network_id": "NEM", "network_region": "NSW1", "description": "Tallawarra Power Station is a 435-megawatt (583,000 hp) combined cycle natural gas power station in the city of Wollongong, New South Wales, Australia. Owned and operated by EnergyAustralia, the station is the first of its type in New South Wales and produces electricity for the state during periods of high demand. It is located on the western shore of Lake Illawarra in the suburb of Yallah.
The station comprises a 260-megawatt (350,000 hp) gas turbine and a 160-megawatt (210,000 hp) steam turbine unit and has a total capacity of 435 megawatts (583,000 hp). It uses many of the previous power station's structures including the cooling system channels from Lake Illawarra. The power station is connected to the state grid via a 132kV switching station maintained by Endeavour Energy (Previously known as Integral Energy).
The construction of the Tallawarra B gas-fired power station was completed in early 2024. It is now supplying power into the grid during times of high demand.
Tallawarra B is Australia\u2019s first peaking power station with direct emissions offset. Its fast-start gas turbine can come online to full load within 30 minutes, generating 320 MW - enough power for 180,000 homes in New South Wales.
Tallawarra B features a $13 million purpose-built plume dispersion device to ensure the safety of planes flying nearby.
", "units": [ { "code": "TALWB1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 320.0, "emissions_factor_co2": 0.7831, "data_first_seen": "2024-01-24T09:15:00+10:00", "data_last_seen": "2025-07-18T20:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TAMALA_PARK", "name": "Tamala Park", "network_id": "WEM", "network_region": "WEM", "description": "The Tamala Park LFG Power Station began operation in 2004, later expanding in 2007. It has a generation capacity of six megawatts - sufficient to provide power to approximately 6,000 homes.
", "units": [ { "code": "TAMALA_PARK", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 6.0, "emissions_factor_co2": 0.077, "data_first_seen": "2013-12-17T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TVCCPS", "name": "Tamar Valley", "network_id": "NEM", "network_region": "TAS1", "description": "Tamar Valley Power Station is a $230 million natural gas-fired power station located in Bell Bay in the Tamar Valley, Tasmania. It is owned by Hydro Tasmania, and is immediately adjacent to the decommissioned Bell Bay Power Station, which is also owned by Hydro Tasmania.
This facility refers to the 208MW combined-cycle gas turbine commissioned at the sight in 2009.
", "units": [ { "code": "TVCC201", "fueltech_id": "gas_ccgt", "status_id": "operating", "capacity_registered": 208.6, "emissions_factor_co2": 0.6117, "data_first_seen": "2009-06-27T15:25:00+10:00", "data_last_seen": "2024-08-23T10:50:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TARALGA", "name": "Taralga", "network_id": "NEM", "network_region": "NSW1", "description": "The Taralga Wind Farm is a wind farm located near Taralga, New South Wales.
Taralga Wind Farm was CBD Energy/Santander's first and only wind farm. It is a 106.8 megawatt wind farm with 51 turbines. The energy produced by the wind farm can power around 45,000 average Australian households per year, saving over 258,000 tonnes of greenhouse gas emissions per year.
The Tarong Battery Energy Storage System (BESS) will provide essential firming capacity to support the renewable projects we have planned in Southern Queensland. It will have a storage capacity of 300MW over two hours duration. The Tarong BESS will be the first battery energy storage in Stanwell's portfolio.
", "units": [ { "code": "0TARONGBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 300.0, "dispatch_type": "LOAD" }, { "code": "0TARONGBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 300.0, "dispatch_type": "GENERATOR" }, { "code": "TARBESSL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 393.0, "dispatch_type": "LOAD" }, { "code": "TARBESSG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 393.0, "dispatch_type": "GENERATOR" } ] }, { "code": "TARONG", "name": "Tarong", "network_id": "NEM", "network_region": "QLD1", "description": "The Tarong Power Station is a coal fired power station located on a 1,500 hectares (3,700 acres) site in Tarong in the South Burnett Region near the Burnett River and Nanango, in Queensland, Australia. The station has a maximum generating capacity of 1,400 megawatts, generated from four turbines. Coal is supplied via a conveyor from Meandu Mine, which is 1.5 kilometres (0.93 mi) away and is also owned by Stanwell.
", "units": [ { "code": "TARONG#3", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 350.0, "emissions_factor_co2": 0.8837, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TARONG#1", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 350.0, "emissions_factor_co2": 0.8837, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TARONG#4", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 350.0, "emissions_factor_co2": 0.8837, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TARONG#2", "fueltech_id": "coal_black", "status_id": "operating", "capacity_registered": 350.0, "emissions_factor_co2": 0.8837, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TARONGN", "name": "Tarong North", "network_id": "NEM", "network_region": "QLD1", "description": "Tarong North Power Station is a 443 megawatt coal fired power station on the same site as Tarong Power Station in the South Burnett. The Queensland Government commissioned the construction of the power station in November 1999. Construction work began in 2000. The power station was initially owned by a 50/50 joint venture between Tarong Energy and TM Energy. Full ownership of the power station by Tarong Energy was obtained in November 2009.The plant was opened in 2003 and is based on an energy efficient supercritical design. The Steam Generator was supplied by IHI and the steam turbine was manufactured by Toshiba.
Particulate emissions at the power station are reduced by bag filter technology.
The Tarraleah Power Station is a hydroelectric power station located in the Central Highlands region of Tasmania, Australia. The power station is part of the Upper Derwent hydro scheme and is operated by Hydro Tasmania.
", "units": [ { "code": "TARRALEA", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 90.0, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TATIARA", "name": "Tataria", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "TATIARA1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 0.5, "emissions_factor_co2": 0.812, "dispatch_type": "GENERATOR" } ] }, { "code": "TATURA", "name": "Tatura", "network_id": "NEM", "network_region": "VIC1", "description": "Organic rich wastewater from Tatura\u2019s local community and thriving local food processing industry (including Tatura Milk\u2019s production factory) flows into Goulburn Valley Water\u2019s Tatura Wastewater Treatment Plant, producing a methane-rich biogas from the anaerobic digestion process. The biogas is captured and cleaned as the fuel source for the generator, and\u00a0the renewable electricity is\u00a0fed into the national grid.
", "units": [ { "code": "TATURA01", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.1, "emissions_factor_co2": 0.0201, "dispatch_type": "GENERATOR" } ] }, { "code": "TEATREE", "name": "Tea Tree Gully", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "TEATREE1", "fueltech_id": "bioenergy_biogas", "status_id": "retired", "capacity_registered": 1.0, "emissions_factor_co2": 0.0576, "dispatch_type": "GENERATOR" } ] }, { "code": "0TEMPLERBESS", "name": "Templers", "network_id": "NEM", "network_region": "SA1", "description": "Construction of ZEN Energy\u2019s Templers Battery Energy Storage project is underway, with earthworks completed and key equipment arriving onsite over the next 6 months.
The Templers Battery is South Australia\u2019s second-largest energy storage project, enhancing electricity reliability as the state leads the way nationally toward 100% renewable energy by 2027.
", "units": [ { "code": "0TEMPLERBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 111.0, "dispatch_type": "LOAD" }, { "code": "0TEMPLERBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 111.0, "dispatch_type": "GENERATOR" }, { "code": "TEMPBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 138.0, "dispatch_type": "LOAD" }, { "code": "TEMPBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 138.0, "dispatch_type": "GENERATOR" } ] }, { "code": "SATGN", "name": "Temporary Generation North", "network_id": "NEM", "network_region": "SA1", "description": "Temporary Generation North and its smaller sibling Temporary Generation South are gas turbine power stations in South Australia. They were bought by the Government of South Australia in 2017 as a response to the 2016 South Australian blackout and load-shedding in February 2017.
Temporary Generation North is five open cycle gas turbines installed at the former Holden site in Elizabeth South, a northern suburb of Adelaide.The generators were purchased to be used only in emergency shortfalls in electricity supply to the grid, such as in extreme weather. Both sets were first used on 24 January 2019 to deal with a supply shortfall in Victoria.The intent of the Weatherill ALP state government was that the turbines would be converted from diesel fuel to natural gas and moved to a single location while remaining owned by the government.In August 2019, the state government (following the 2018 election, now controlled by the Liberal party) announced that it had arranged 25-year leases of the power stations to two different companies, with the leases taking effect from May 2020. Both companies operate wind farms in South Australia. The five northern generators will be leased to Nexif Energy and relocated to a new site at Outer Harbor and operating on natural gas before the end of 2020. Nexif Energy also proposes to convert them to combined cycle with a steam turbine in the following few years.
Temporary Generation South and its larger sibling Temporary Generation North are gas turbine power stations in South Australia. They were bought by the Government of South Australia in 2017 as a response to the 2016 South Australian blackout and load-shedding in February 2017.
Temporary Generation South is four open cycle gas turbines at the former Port Stanvac Refinery at Lonsdale.The generators were purchased to be used only in emergency shortfalls in electricity supply to the grid, such as in extreme hot weather. They were first used on 24 January 2019 to deal with a supply shortfall in Victoria.The intent of the Weatherill ALP state government was that the turbines will be converted from diesel fuel to natural gas and moved to a single location while remaining owned by the government.In August 2019, the state government (following the 2018 election, now controlled by the Liberal party) announced that it had arranged 25-year leases of the power stations to two different companies, with the leases taking effect from May 2020. Both companies operate wind farms in South Australia. The four generators at Lonsdale will be leased to Infigen Energy and will be moved from the SA Water desalination plant to the SA Water Bolivar Waste Water Treatment Plant and converted to operate on natural gas instead of diesel.
FRV Services Australia (FRV) is building the Terang Battery Energy Storage System (BESS). The Terang BESS will have a total anticipated discharge capacity of 100 megawatts (MW) and a storage capacity of 200 megawatt hours (MWh).
The Terang BESS is now under construction. Once operational, it will improve the reliability of the electricity network by storing power when there is a lot of energy available (for example during the day) and releasing this stored energy when demand is higher.
", "units": [ { "code": "0TERANGBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "LOAD" }, { "code": "0TERANGBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "GENERATOR" } ] }, { "code": "TERMSTOR", "name": "Terminal", "network_id": "NEM", "network_region": "SA1", "description": "", "units": [ { "code": "TERMSTOR", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 2.0, "dispatch_type": "GENERATOR" } ] }, { "code": "BLUFF", "name": "The Bluff", "network_id": "NEM", "network_region": "SA1", "description": "AGL's Bluff Range Wind Farm, also known as Hallett 5 Wind Farm consists of 25 Suzlon turbines each of 2.1MW for a total of 52.5MW. Total project investment was $120 million. The project was completed in early 2012. Turbines spread 8 kilometres over the Porcupine Range.
", "units": [ { "code": "BLUFF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 52.5, "data_first_seen": "2011-07-05T15:50:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "THEDROP", "name": "The Drop", "network_id": "NEM", "network_region": "NSW1", "description": "The Drop Hydro Power Station is a Pacific Hydro hydroelectric power station on the Mulwala Canal, near Berrigan, New South Wales, Australia. It has one turbine, with a generating capacity of 2.5 megawatts (3,400 hp) of electricity.The power station was completed in November 2002, and is Australia's first hydroelectric power station built on an irrigation canal.
", "units": [ { "code": "THEDROP1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 2.5, "dispatch_type": "GENERATOR" } ] }, { "code": "0TILBSF", "name": "Tilbuster", "network_id": "NEM", "network_region": "NSW1", "description": "The proposed Tilbuster solar farm would add to secure, affordable and clean energy generation for the state of NSW whilst also contributing to the national Renewable Energy Target (RET) of 33,000 gigawatt hours. The New England region is considered an excellent province for solar energy generation due to its solar irradiance capabilities.
It has access to two existing transmission lines that transect the proposal site and does not appear highly constrained by environmental factors; a 132kV eastern line and a 330kV central line. Both the eastern and central line run south east to north west through the proposal site. The 330\u00a0kV transmission line would be used to connect the solar farm to the national electricity grid.
", "units": [ { "code": "0TILBSF", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 249.0, "dispatch_type": "GENERATOR" } ] }, { "code": "TIMWEST", "name": "Timboon West", "network_id": "NEM", "network_region": "VIC1", "description": "The Timboon West Wind Farm was developed and constructed in 2018 by BayWa r.e. Wind Pty Ltd and commenced operations in late 2018. Epic Energy acquired the Timboon West Wind Farm in April 2019.
Located approximately seven kilometres southwest of Timboon in south-western Victoria, the site was chosen for its undisturbed wind flow with strong, consistent wind speeds, close proximity to the electrical grid, and large setbacks to nearby dwellings
", "units": [ { "code": "TIMWEST", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 7.2, "dispatch_type": "GENERATOR" } ] }, { "code": "TOORAWF", "name": "Toora", "network_id": "NEM", "network_region": "VIC1", "description": "Toora wind farm is a wind power station at Toora in South Gippsland, Victoria, Australia. It is located north of Wilsons Promontory and 150 km SE of Melbourne. The wind farm is on a ridge overlooking the town of Toora.
Toora has 12 wind turbines, each of 1.75 MW rated capacity, with a total generating capacity of 21 MW of electricity. The power station was completed in 2002.
As of May 2008, it was owned by Transfield Services Infrastructure Fund. Danish company Vestas Wind Systems, one of the world's largest turbine manufacturers, constructed the wind farm. Transfield Services Infrastructure Fund became RATCH-Australia on 11 July 2011.Viewing and photography points are available on a road that passes the wind farm. From some of these views of the coastal plain, the Strzelecki Ranges, and Wilsons Promontory can be combined with views of the turbines. Accommodation is available in a caravan park at Toora.
One of Toora's turbines can power up to 6,600 homes.
AGL has broken ground at Torrens Island power station in preparation for the construction of its $180 million, 250 MW grid-scale battery.
", "units": [ { "code": "TIBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 250.0, "data_first_seen": "2023-04-26T11:15:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "LOAD" }, { "code": "TIBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 250.0, "data_first_seen": "2023-04-26T12:05:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TORRIS", "name": "Torrens Island", "network_id": "NEM", "network_region": "SA1", "description": "Torrens Island Power Station is located on Torrens Island, near Adelaide, South Australia and is operated by AGL Energy. It burns natural gas in eight steam turbines to generate up to 1,280 MW of electricity. The gas is supplied via the SEAGas pipeline from Victoria, and the Moomba Adelaide Pipeline System (MAPS) from Moomba in the Cooper Basin. The station is capable of burning either natural gas or fuel oil. It is the largest power station in South Australia and was formerly the largest single power station user of natural gas in Australia.
", "units": [ { "code": "TORRB2", "fueltech_id": "gas_steam", "status_id": "operating", "capacity_registered": 200.0, "emissions_factor_co2": 0.5758, "data_first_seen": "1998-12-09T05:40:00+10:00", "data_last_seen": "2025-07-19T20:05:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TORRB3", "fueltech_id": "gas_steam", "status_id": "operating", "capacity_registered": 200.0, "emissions_factor_co2": 0.5758, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TORRA1", "fueltech_id": "gas_steam", "status_id": "retired", "capacity_registered": 120.0, "emissions_factor_co2": 0.5758, "data_first_seen": "1998-12-07T05:45:00+10:00", "data_last_seen": "2020-09-17T18:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TORRA4", "fueltech_id": "gas_steam", "status_id": "retired", "capacity_registered": 120.0, "emissions_factor_co2": 0.5758, "data_first_seen": "1998-12-08T14:40:00+10:00", "data_last_seen": "2020-09-17T17:35:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TORRA2", "fueltech_id": "gas_steam", "status_id": "retired", "capacity_registered": 120.0, "emissions_factor_co2": 0.5758, "data_first_seen": "1998-12-07T06:55:00+10:00", "data_last_seen": "2020-03-21T01:40:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TORRA3", "fueltech_id": "gas_steam", "status_id": "retired", "capacity_registered": 120.0, "emissions_factor_co2": 0.5758, "data_first_seen": "1998-12-08T14:40:00+10:00", "data_last_seen": "2021-12-07T12:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TORRB1", "fueltech_id": "gas_steam", "status_id": "operating", "capacity_registered": 200.0, "emissions_factor_co2": 0.5758, "data_first_seen": "1998-12-08T05:40:00+10:00", "data_last_seen": "2021-12-07T12:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "TORRB4", "fueltech_id": "gas_steam", "status_id": "operating", "capacity_registered": 200.0, "emissions_factor_co2": 0.5758, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-05-17T00:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TOWER", "name": "Tower", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "TOWER", "fueltech_id": "gas_wcmg", "status_id": "operating", "capacity_registered": 41.2, "emissions_factor_co2": 0.7005, "dispatch_type": "GENERATOR" } ] }, { "code": "YABULU", "name": "Townsville", "network_id": "NEM", "network_region": "QLD1", "description": "Townsville Power Station is located in Yabulu, an industrial suburb of Townsville. The station is owned by RATCH-Australia. The station has a 160 MW Siemens turbine and an 82 MW heat recovery steam generator.
The station was built in the late 1990s as an open-cycle plant and was upgraded to combined-cycle operation in 2005.
The Trevallyn Power Station is a run-of-the-river hydroelectric power station located in the northern Midlands region of Tasmania, Australia. The power station is situated on the Great Lake and South Esk catchment and is owned and operated by Hydro Tasmania.
", "units": [ { "code": "TREVALLN", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 93.0, "data_first_seen": "2005-05-16T17:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TRIBUTE", "name": "Tribute", "network_id": "NEM", "network_region": "TAS1", "description": "The Tribute Power Station is a conventional hydroelectric power station located in Western Tasmania, Australia.
", "units": [ { "code": "TRIBNL1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 25.0, "dispatch_type": "GENERATOR" }, { "code": "TRIBUTE", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 83.0, "data_first_seen": "2005-05-17T07:20:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "TULLYSM", "name": "Tully Sugar Mill", "network_id": "NEM", "network_region": "QLD1", "units": [ { "code": "TULLYSM1", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 28.0, "emissions_factor_co2": 0.018, "data_first_seen": "2024-08-27T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "SNOWY2", "name": "Tumut", "network_id": "NEM", "network_region": "NSW1", "description": "Located downstream of Tumut Pond Dam and 366 metres below ground level, Tumut 1 Power Station is situated approximately 2.25 kilometres south-west from Cabramurra, under Happy Valley Rd. The conventional hydroelectric power station has four turbine generators, with a combined generating capacity of 330 megawatts of electricity; and a net generation of 847 gigawatt-hours per annum. The power station was completed in 1959, and has 292.6 metres rated head.
Tumut 2 Power Station is situated approximately 5.91 kilometres north of north-west from Cabramurra, under Goat Ridge Rd, some 244 metres below ground level. The conventional hydroelectric power station has four Francis turbine generators, with a combined generating capacity of 286.4 megawatts and a net generation of 787 gigawatt-hours per annum. The power station was completed in 1962, and has 262.1 metres rated head. Water flows through the turbines at the rate of 118.9 cubic metres per second.
Tumut 3 Power Station is the first major pumped storage hydroelectric power station in Australia. Pump-storage schemes use off-peak energy to pump water to a reservoir on a higher level. This water then passes through turbines to generate electricity when prices are higher. The sole powerhouse is located above ground, below Talbingo Dam.
The Tungatinah Power Station is a conventional hydroelectric power station located in the Central Highlands region of Tasmania, Australia. The power station is situated on the Upper River Derwent catchment and is owned and operated by Hydro Tasmania.
", "units": [ { "code": "TUNGATIN", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 125.0, "data_first_seen": "2005-05-16T13:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "ULBESS", "name": "Ulinda Park", "network_id": "NEM", "network_region": "QLD1", "description": "Akaysha is developing a large scale BESS adjacent to the Western Downs Substation in Queensland\u2019s energy heartland. The BESS will support the rapid expansion of solar and wind projects leveraging existing transmission infrastructure in the Western Downs built for conventional energy. The BESS will ensure cost efficient delivery of renewable energy to customers in Queensland while supporting the network.
", "units": [ { "code": "ULBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 150.0, "dispatch_type": "GENERATOR" }, { "code": "ULBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 150.0, "dispatch_type": "LOAD" }, { "code": "ULPBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 197.0, "dispatch_type": "LOAD" }, { "code": "ULPBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 197.0, "dispatch_type": "GENERATOR" } ] }, { "code": "URANQ", "name": "Uranquinty", "network_id": "NEM", "network_region": "NSW1", "description": "The Uranquinty Power Station is a 640-megawatt (860,000 hp) natural gas-fired power station located in Uranquinty, New South Wales, Australia, comprising four Siemens V94.2 gas turbines. It is the second largest gas-fired power station in New South Wales, and is used during peak loads.
Uranquinty Power Station was the fourth power station to be constructed by NewGen Power which was jointly owned by ERM Power and Babcock and Brown Power at a cost of $500 million.On 4 July 2008 Babcock and Brown Power announced that it had sold the Uranquinty power station for $700 million to Origin Energy.On 19 January 2009 Origin Energy Limited announced that the Uranquinty Power Station was commissioned with eight people employed to operate the facility.
Uungula Wind Farm is located on Wiradjuri Country, 14km east of Wellington, NSW.
", "units": [ { "code": "0UUNGULAWF", "fueltech_id": "wind", "status_id": "committed", "capacity_registered": 414.0, "dispatch_type": "GENERATOR" } ] }, { "code": "VP", "name": "Vales Point B", "network_id": "NEM", "network_region": "NSW1", "description": "In 1978, two Toshiba 660 MW units were added to the Vales Point Power Station, becoming "B" Station. The combined capacity of 2195 MW made Vales Point the largest power station in Australia at the time. The Toshiba 660 MW turbo-alternator became the standard in New South Wales, with similar units later being installed at Eraring, Bayswater and Mount Piper.
The Valley Power Peaking Facility is an open cycle, gas turbine power station at Traralgon in the Latrobe Valley in Victoria, Australia. It is owned and operated by Snowy Hydro.
", "units": [ { "code": "VPGS3", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 0.941, "data_first_seen": "2002-05-16T13:05:00+10:00", "data_last_seen": "2025-07-16T08:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "VPGS5", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 0.941, "data_first_seen": "2002-05-16T13:05:00+10:00", "data_last_seen": "2025-07-18T08:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "VPGS6", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 0.941, "data_first_seen": "2002-05-16T15:25:00+10:00", "data_last_seen": "2025-07-18T08:10:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "VPGS4", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 0.941, "data_first_seen": "2002-05-16T11:40:00+10:00", "data_last_seen": "2025-07-01T08:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "VPGS2", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 0.941, "data_first_seen": "2002-05-16T13:05:00+10:00", "data_last_seen": "2025-06-30T23:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "VPGS", "fueltech_id": "gas_ocgt", "status_id": "retired", "emissions_factor_co2": 0.8715, "data_first_seen": "2006-02-02T12:05:00+10:00", "data_last_seen": "2015-07-01T00:00:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "VPGS1", "fueltech_id": "gas_ocgt", "status_id": "operating", "capacity_registered": 50.0, "emissions_factor_co2": 0.941, "data_first_seen": "2002-05-15T18:10:00+10:00", "data_last_seen": "2025-06-30T23:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYGS1", "fueltech_id": "gas_ocgt", "status_id": "retired", "emissions_factor_co2": 0.8715, "data_first_seen": "2002-02-18T17:10:00+10:00", "data_last_seen": "2002-05-13T14:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYGS2", "fueltech_id": "gas_ocgt", "status_id": "retired", "emissions_factor_co2": 0.8715, "data_first_seen": "2002-03-13T19:45:00+10:00", "data_last_seen": "2002-05-11T18:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYGS3", "fueltech_id": "gas_ocgt", "status_id": "retired", "emissions_factor_co2": 0.8715, "data_first_seen": "2002-03-11T16:00:00+10:00", "data_last_seen": "2002-05-15T04:20:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYGS4", "fueltech_id": "gas_ocgt", "status_id": "retired", "emissions_factor_co2": 0.8715, "data_first_seen": "2002-04-09T12:35:00+10:00", "data_last_seen": "2002-05-11T18:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYGS5", "fueltech_id": "gas_ocgt", "status_id": "retired", "emissions_factor_co2": 0.8715, "data_first_seen": "2002-05-07T11:35:00+10:00", "data_last_seen": "2002-05-11T18:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "LYGS6", "fueltech_id": "gas_ocgt", "status_id": "retired", "emissions_factor_co2": 0.8715, "dispatch_type": "GENERATOR" } ] }, { "code": "TITREE", "name": "Veolia Ti Tree", "network_id": "NEM", "network_region": "QLD1", "description": "The facility utilises the 36 million cubic metre void left over from a previous open cut coal operation on the outskirts of Ipswich. As the site is filled, completed areas are rehabilitated to complement the surrounding natural environment. Ti Tree is located adjacent to main roads and rail transport, further enhancing its appeal for economically sustainable waste management in Australia and the world.
", "units": [ { "code": "TITREE", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 2.0, "emissions_factor_co2": 0.7226, "dispatch_type": "GENERATOR" } ] }, { "code": "VICMILL", "name": "Victoria Mill", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "VICMILL1", "fueltech_id": "bioenergy_biomass", "status_id": "operating", "capacity_registered": 24.0, "emissions_factor_co2": 0.0201, "dispatch_type": "GENERATOR" } ] }, { "code": "VBB", "name": "Victorian Big Battery", "network_id": "NEM", "network_region": "VIC1", "description": "The Victorian Big Battery is a 300 MW grid-scale battery storage project in Geelong, Australia which will store enough energy in reserve to power over one million Victorian homes for 1/2 an hour.
", "units": [ { "code": "VBBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 360.0, "data_first_seen": "2021-07-28T12:40:00+10:00", "data_last_seen": "2025-07-21T20:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "VBBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 360.0, "data_first_seen": "2021-07-28T11:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "0WAGERUP_BESS", "name": "Wagerup", "network_id": "WEM", "network_region": "WEM", "units": [ { "code": "0WAGERUPBESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "LOAD" }, { "code": "0WAGERUPBESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 100.0, "dispatch_type": "GENERATOR" } ] }, { "code": "ALCOA_WGP", "name": "Wagerup", "network_id": "WEM", "network_region": "WEM", "description": "Wagerup Power Station is a 380MW dual natural gas and distillate fuelled power station located at Alcoa\u2019s Wagerup refinery in south-west Western Australia. Located about 130 km south of Perth, on the border of Western Australia\u2019s Peel and South West regions, the Power Station is four kilometres north of Yarloop and 13 km south of Waroona. Wagerup is only operated when there is insufficient capacity in the South West Interconnected System to meet high demand.
Two open system gas turbines commenced operations at Wagerup in October 2007.
The Wagga Wagga Solar Farm site is located six kilometres from the town centre adjacent to the Bomen industrial zone. The project has been in development since 2017 and is currently in the early stages of construction.
", "units": [ { "code": "WAGGNSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 55.0, "data_first_seen": "2021-08-03T18:00:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "ALINTA_WWF", "name": "Walkaway", "network_id": "WEM", "network_region": "WEM", "description": "Alinta wind farm (also known as Walkaway wind farm) is a wind power station at Walkaway, just south of Geraldton, Western Australia. It is owned by Infigen Energy and has offtake agreements with Alinta Energy and AGL Energy.The Alinta wind farm has an installed capacity of 89.1 megawatts. It supplies Perth and the south west in the South West Interconnected System (SWIS).
Each year the wind farm generates energy that would normally produce 360,150 tonnes of greenhouse gases if generated by fossil fuel based methods. This is the equivalent of removing 76,000 cars from the roads.Electricity produced by the wind farm is purchased mainly by Alinta Energy.
FRV Services Australia (FRV) is constructing a 300 megawatt (MWac) solar farm near Walla Walla in NSW. The solar farm will utilise the region\u2019s abundant sunlight to generate clean, renewable energy for business and households in NSW.
The Independent Planning Commission (IPC) provided planning consent for the Project on 27th November 2020 after extensive community consultation and detailed assessment of the Project proposal. The solar farm is due to commence construction in January 2023.
Wallerawang Power Station was a thermal coal power station, located near Wallerawang, in the Central Tablelands region of New South Wales, Australia. The power station was equipped with two turbo-alternators of 500 megawatts (670,000 hp) each, supplied by CA Parsons and Company of Newcastle-upon-Tyne, England. Production commenced in May 1957.In July 2013, EnergyAustralia acquired Wallerawang Power Station, along with Mount Piper Power Station, from Delta Electricity for $160 million. Due to dwindling demand, the first of the two generating units had been mothballed in January 2013, and the second in April 2014. In November 2014, EnergyAustralia announced that it would permanently close Wallerawang due to ongoing reduced energy demand, lack of access to competitively priced coal and the power station\u2019s high operating costs. EnergyAustralia began the process of removing useful equipment from the station in 2015 and began demolition of the site when this process has been completed.
", "units": [ { "code": "WW7", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 500.0, "emissions_factor_co2": 1.03, "data_first_seen": "1998-12-07T09:30:00+10:00", "data_last_seen": "2014-01-25T11:45:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "WW8", "fueltech_id": "coal_black", "status_id": "retired", "capacity_registered": 500.0, "emissions_factor_co2": 1.03, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2014-03-31T22:20:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WALGRV", "name": "Wallgrove", "network_id": "NEM", "network_region": "NSW1", "description": "A 50MW/75MWh lithium ion battery will be installed at Transgrid\u2019s Wallgrove substation in Western Sydney.
", "units": [ { "code": "WALGRVG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 50.0, "data_first_seen": "2021-10-29T12:30:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "WALGRVL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 47.0, "data_first_seen": "2021-11-02T14:10:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "PRDSO_WALPOLE", "name": "Walpole", "network_id": "NEM", "network_region": "WEM", "description": "Western Power is partnering with WA engineering firm Power Research and Development (PRD) to develop a mini-pumped hydro facility in Walpole and connect it to the SWIS network.
Two dams are being built on a farming property near Walpole, one high and one low, to transfer and store the water. Solar panels and batteries will power the pumping action and shift the water, making it self-sufficient.
Wambo Wind Farm is a renewable energy generation project located near Jandowae, at a site chosen for its excellent wind resources and attractive grid connectivity.
The project is a 50:50 joint venture between Cubico Sustainable Investments, a major investor in the renewable energy sector globally and Stanwell, a Queensland Government-owned electricity generator.
", "units": [ { "code": "0WAMBOWF2", "fueltech_id": "wind", "status_id": "committed", "capacity_registered": 248.0, "dispatch_type": "GENERATOR" }, { "code": "WAMBOWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 252.0, "data_first_seen": "2025-06-21T11:25:00+08:00", "data_last_seen": "2025-07-21T21:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WANDSF", "name": "Wandoan", "network_id": "NEM", "network_region": "QLD1", "description": "Wandoan South Solar 1 consists of approximately 250,000 solar photovoltaic panels across 500 ha of the Wandoan South Project site and will have a maximum output of 125 MW. The project is connected to Powerlink\u2019s Wandoan South Substation, located to the south of the Project site.
", "units": [ { "code": "0WANDSF2", "fueltech_id": "solar_utility", "status_id": "committed", "capacity_registered": 240.0, "dispatch_type": "GENERATOR" }, { "code": "WANDSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 159.0, "data_first_seen": "2023-05-25T12:05:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WANDBG", "name": "Wandoan South", "network_id": "NEM", "network_region": "QLD1", "description": "The Wandoan South Battery Energy Storage System (BESS) Project is located near Wandoan, 400km north-west of Brisbane in the Darling Downs region. The BESS will have a discharge capacity of up to 100MW and store 150MWh of energy, which could power up to 57,000 average homes annually. It represents the first milestone of the Wandoan South Project to be developed across several stages.
", "units": [ { "code": "WANDBG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 123.0, "data_first_seen": "2021-09-08T15:10:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "WANDBL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 123.0, "data_first_seen": "2021-10-14T12:55:00+10:00", "data_last_seen": "2025-07-21T19:35:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "WTAHB", "name": "Waratah Super Battery", "network_id": "NEM", "network_region": "NSW1", "description": "To ensure NSW continues to have reliable energy supply as our coal-fired power stations close, the NSW Government is delivering the Waratah Super Battery project.
The Waratah Super Battery project is a System Integrity Protection Scheme (SIPS) designed to act as a 'shock absorber' in the event of any sudden power surges, including from bush fires or lightning strikes. The SIPS also provides a virtual transmission solution that increases the capacity of the existing transmission system, allowing electricity consumers in the Hunter, Sydney and Illawarra regions to access more energy from existing generators.
", "units": [ { "code": "WTAHB1L1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 1093.84, "data_first_seen": "2024-09-30T16:00:00+10:00", "data_last_seen": "2025-07-21T21:10:00+10:00", "dispatch_type": "LOAD" }, { "code": "WTAHB1G1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 1095.84, "data_first_seen": "2024-09-03T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WARRADARGE", "name": "Warradarge", "network_id": "WEM", "network_region": "WEM", "description": "The Warradarge Wind Farm will have a total output of 180 megawatts with a capacity factor of nearly 50 per cent \u2013 the equivalent of the average annual electricity needs of 148,500 West Australian homes.
", "units": [ { "code": "WARRADARGE_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 180.0, "data_first_seen": "2020-08-05T11:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WG", "name": "Warragamba", "network_id": "NEM", "network_region": "NSW1", "description": "Warragamba Power Station is a hydroelectric power station at Warragamba Dam, New South Wales, Australia. Warragamba has one turbine with a generating capacity of 50 MW of electricity.
The power station was completed in 1959 and is now disconnected from the electricity grid.
The Warwick Solar Farm is a 64 MWac renewable energy facility in the Southern Downs Region of Queensland, which is approximately 160km west of Brisbane.
The project was developed by Terrain Solar and acquired by the University of Queensland in 2018 at a ready-to-build status, enabling them to become the first major university in the world to offset 100 per cent of their electricity use with renewable power produced from their own assets.
The University of Queensland will also use the project as a research and teaching facility. Construction commenced in February 2019 and was formally opened in July 2020.
", "units": [ { "code": "WARWSF2", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 39.0, "data_first_seen": "2020-09-22T08:25:00+08:00", "data_last_seen": "2025-07-21T17:15:00+08:00", "dispatch_type": "GENERATOR" }, { "code": "WARWSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 39.0, "data_first_seen": "2020-09-22T08:35:00+08:00", "data_last_seen": "2025-07-21T17:15:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WATERLWF", "name": "Waterloo", "network_id": "NEM", "network_region": "SA1", "description": "Waterloo wind farm is east of Manoora, South Australia. It is the largest wind farm operated by EnergyAustralia.
", "units": [ { "code": "WATERLWF", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 130.0, "data_first_seen": "2010-08-20T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WPWF", "name": "Wattle Point", "network_id": "NEM", "network_region": "SA1", "description": "Wattle Point Wind Farm is a wind farm near Edithburgh on the Yorke Peninsula in South Australia, which has been operating since April 2005. When it was officially opened in June of that year it was Australia's largest wind farm at 91 megawatts (122,000 hp). The installation consists of 55 wind turbines covering 17.5 square kilometres (6.8 sq mi)and was built at a cost of 180 million Australian dollars. It is connected to ETSA Utilities electricity transmission system via a 132 kilovolt line.The location was chosen after identification as having one of mainland Australia's highest average wind speeds. The wind farm was officially opened by South Australian Premier Mike Rann and Southern Hydro Chairman, Dr Keith Turner. The opening was opposed by some of the local Indigenous Australians, the Adjahdura (or Narungga). A descendant of the traditional landowners argued that construction desecrated an ancient burial ground, disturbing skeletons in the construction of turbine number four. Work was halted in late 2004 after the discovery of human remains, artefacts and tools. The Aboriginal Affairs Department, and the developers, separately commissioned archaeological reports resulting in the development allowed to proceed with five towers being repositioned. Both reports concluded that the bones had come from elsewhere on the peninsula, being later reburied at Wattle Point. The region's aboriginal community was divided on construction; Narungga National Aboriginal Corporation supporting development and the Narungga Heritage Committee strongly opposing.Wattle Point Wind Farm was built and owned by Southern Hydro Pty Limited. Southern Hydro was owned by Meridian Energy of New Zealand until October 2005, when it was bought by the Australian Gas Light Company (AGL). The windfarm was acquired by Alinta in October 2006, as part of an asset merger with AGL, and subsequently by the Australia and New Zealand Banking Group's Energy Infrastructure Trust, for 225 million dollars on 23 April 2007.
The District Council of Yorke Peninsula approved a second wind farm, Wattle Point Stage 2. However it did not proceed due to insufficient capacity in the electrical transmission lines.The facility is closely connected to the Dalrymple ESCRI battery, a 30-megawatt battery storage facility at Dalrymple substation about 21 kilometres (13 mi) to the north.
The Waubra wind farm is located on both sides of the Sunraysia Highway 35 km north-west of Ballarat in Victoria, Australia. It is the fourth largest wind farm in Australia and was the largest wind farm by number of turbines and total capacity in the southern hemisphere upon its completion in July 2009.Consisting of 128 wind turbines, with associated substations and an operations centre, each wind turbine has a capacity of 1.5 megawatts (MW). The total installed capacity is 192 MW.The green energy generated by the wind farm each year provides electricity for 143,000 households enough to power a city 3-4 times the size of Ballarat.Acciona Energy formed a Community Reference Group (CRG) for the construction phase of the Waubra wind farm, to provide a regular forum for community input to the project and to facilitate communication between members of the Waubra community and the wind farm project team. In 2010 the anti-wind farm lobby group the Waubra Foundation adopted the name of the nearby town.
The construction of the Waubra wind farm received financial assistance as part of the Victorian State Government\u2019s Victorian Renewable Energy Target (VRET).In July 2011 the Australian Broadcasting Corporation 4 Corners program explored health concerns connected with Australian wind farms in its "Against the Wind" report. The Waubra wind farm and the community living around it was featured in the report.
A viewing platform designed by Melbourne-based firm JOH Architects is accessible to tourists and located just off the Sunraysia Highway.
This project consists of a 200MWdc solar farm at Goolma Road, Wuuluman. Construction on this project commenced in December 2019.
The solar farm is situated on 316 hectares of grazed agricultural land, which has predominantly been used for sheep and cattle grazing.
", "units": [ { "code": "WELLSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 216.0, "data_first_seen": "2020-11-14T15:35:00+10:00", "data_last_seen": "2025-07-21T17:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WELNSF", "name": "Wellington North", "network_id": "NEM", "network_region": "NSW1", "description": "This solar project consists of a 425MWdc solar farm approximately seven kilometres north-east of Wellington, off Goolma Road, and 50 kilometres south-east of Dubbo in the Orana region of NSW. The project has been approved by the NSW Department Planning, Industry and Environment with construction, which will create 400 jobs, currently underway.
The solar farm is adjacent to our 200MWdc Wellington solar farm which is currently in construction. Once operational, both sites will create a solar hub with a combined installed capacity of 625MWdc.
Wemen Solar Farm is a photovoltaic power station in northwestern Victoria, Australia. It was constructed by RCR and Laing O\u2019Rourke for owner Wirsol Energy, completed in 2018.
", "units": [ { "code": "WEMENSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 97.0, "data_first_seen": "2018-11-07T13:30:00+10:00", "data_last_seen": "2025-07-21T17:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "BLAIRFOX_WESTHILLS", "name": "West Hills", "network_id": "WEM", "network_region": "WEM", "description": "Blair Fox managed the purchase and dismantling of 20 ENERCON E40 500kW wind turbines from the San Giorgio La Molara wind farm in the province of Benevento, Italy.
These wind turbines were transported to Western Australia, refurbished and installed at the West Hills and Karakin Wind Farms around 150km north of Perth.
The 5MW West Hills Wind Farm supplies electricity to our client farm in Lancelin.
The Kalgoorlie Gas Turbine Station is used to provide emergency back-up electricity for our electricity network, especially in the Kalgoorlie region. It consists of two open cycle gas turbines with a total electricity generation output capacity of 57 megawatts, operated on distillate as the primary fuel. The power station is not attended with all turbines operated remotely from the Pinjar control room.
", "units": [ { "code": "WEST_KALGOORLIE_GT2", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 41.2, "emissions_factor_co2": 0.562, "data_first_seen": "2014-01-09T08:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "WEST_KALGOORLIE_GT3", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 23.3, "emissions_factor_co2": 0.562, "data_first_seen": "2014-01-09T09:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WKIEWA", "name": "West Kiewa", "network_id": "NEM", "network_region": "VIC1", "description": "One of four units in the Kiewa Hydroelectric Scheme.
350km northeast of Melbourne in the Australian Alps, the Kiewa Hydroelectric Scheme is the largest in the State. Kiewa houses four power stations with an average annual electricity output of 404 GWh. The scheme harnesses energy from the Rocky Valley and Pretty Valley branches of the East Kiewa River, which rises on the Bogong High Plains, and the West Kiewa River, which rises near Mount Hotham.
", "units": [ { "code": "WKIEWA2", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 31.0, "data_first_seen": "1998-12-07T06:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "WKIEWA1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 31.0, "data_first_seen": "1998-12-07T06:35:00+10:00", "data_last_seen": "2025-07-21T07:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "AGLNOW1", "name": "West Nowra", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "AGLNOW1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.062, "dispatch_type": "GENERATOR" } ] }, { "code": "WSTWYSF", "name": "West Wyalong", "network_id": "NEM", "network_region": "NSW1", "description": "West Wyalong solar farm is a 107MW project located near Wyalong, NSW. Snowy Hydro will purchase two-thirds of the power generated from the solar project through a 15-year PPA.
", "units": [ { "code": "WSTWYSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 105.0, "data_first_seen": "2022-09-27T00:05:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WDBESS", "name": "Western Downs", "network_id": "NEM", "network_region": "QLD1", "description": "This is the first stage of the Western Downs Battery.
Western Downs battery is a 540 MW storing up to 1,080 MWh of energy with up to 2 hrs of power in reserve.
It is a grid-scale battery which will leverage leading-edge technology, connecting into Australia\u2019s national electricity grid via the transmission network.
As an industrial sized battery energy storage system, the battery will provide grid stability by dispatching stored energy to the grid during peak times of demand.
", "units": [ { "code": "WDBESSG1", "fueltech_id": "battery_discharging", "status_id": "operating", "capacity_registered": 272.4, "data_first_seen": "2024-07-01T14:45:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "WDBESSL1", "fueltech_id": "battery_charging", "status_id": "operating", "capacity_registered": 270.48, "data_first_seen": "2024-07-05T10:20:00+10:00", "data_last_seen": "2025-07-21T21:00:00+10:00", "dispatch_type": "LOAD" } ] }, { "code": "WDGPH", "name": "Western Downs", "network_id": "NEM", "network_region": "QLD1", "description": "The Western Downs Green Power Hub is a large solar farm project under construction. At a size of 460 MW of installed solar panels once built, it will be Australia\u2019s largest operating solar farm. The site also holds up to 150MW battery energy storage potential. The 200 MW battery which will be located next to the solar farm is in advanced stage of development
", "units": [ { "code": "WDGPH1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 501.0, "data_first_seen": "2022-02-15T14:10:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WDBESS2", "name": "Western Downs 2", "network_id": "NEM", "network_region": "QLD1", "description": "This is the second stage of the Western Downs Battery.
Western Downs battery is a 540 MW storing up to 1,080 MWh of energy with up to 2 hrs of power in reserve.
It is a grid-scale battery which will leverage leading-edge technology, connecting into Australia\u2019s national electricity grid via the transmission network.
As an industrial sized battery energy storage system, the battery will provide grid stability by dispatching stored energy to the grid during peak times of demand.
", "units": [ { "code": "WDBESSG2", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 270.0, "dispatch_type": "GENERATOR" }, { "code": "WDBESSL2", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 270.0, "dispatch_type": "LOAD" } ] }, { "code": "WESTCBT", "name": "Western Suburbs League Club", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "WESTCBT1", "fueltech_id": "distillate", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.812, "dispatch_type": "GENERATOR" } ] }, { "code": "WRSF1", "name": "White Rock Solar Farm", "network_id": "NEM", "network_region": "NSW1", "description": "The White Rock Solar Farm is a 20 MW solar photovoltaic development located near the White Rock Wind Farm in New South Wales, Australia. Together, they form a hybrid renewable energy facility that shares infrastructure, such as grid connections and substations, to maximize efficiency. The solar farm, which became operational in 2018, powers approximately 8,000 homes annually. It was developed with support from ARENA to improve large-scale solar energy expertise.
", "units": [ { "code": "WRSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 22.0, "data_first_seen": "2018-10-05T13:35:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WRWF1", "name": "White Rock Wind Farm", "network_id": "NEM", "network_region": "NSW1", "description": "The White Rock Wind Farm is located in New South Wales, Australia, and is comprised of up to 119 wind turbines. Stage One of the project, with 70 turbines, generates 175 MW of clean energy, powering approximately 105,000 homes annually. The second stage, currently in planning, will add up to 48 turbines, boosting the overall capacity to 216 MW. This wind farm is part of a larger effort to increase renewable energy production in the region.
", "units": [ { "code": "WRWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 175.0, "data_first_seen": "2017-07-08T09:55:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WHITSF", "name": "Whitsunday", "network_id": "NEM", "network_region": "QLD1", "description": "The Whitsunday Solar Farm is a solar farm located at Collinsville in North Queensland, Australia. It has a generating capacity of 57.5 megawatts. Operations commenced in 2018. The power station is jointly owned by Edify Energy and Wirsol. It is co-located at the same site as the Hamilton Solar Farm and the Daydream Solar Farm.
", "units": [ { "code": "WHITSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 57.5, "data_first_seen": "2018-07-11T13:55:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WHIT1", "name": "Whitwood Road", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "WHIT1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.062, "dispatch_type": "GENERATOR" } ] }, { "code": "WILGAPK", "name": "Wilga Park", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "WILGAPK", "fueltech_id": "gas_recip", "status_id": "operating", "capacity_registered": 10.0, "emissions_factor_co2": 0.5692, "dispatch_type": "GENERATOR" } ] }, { "code": "WILGAPKB", "name": "Wilga Park B", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "WILGB01", "fueltech_id": "gas_recip", "status_id": "operating", "capacity_registered": 12.0, "emissions_factor_co2": 0.5692, "dispatch_type": "GENERATOR" } ] }, { "code": "WILLHOV", "name": "William Hovel", "network_id": "NEM", "network_region": "VIC1", "units": [ { "code": "WILLHOV1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 1.5, "dispatch_type": "GENERATOR" } ] }, { "code": "0WDBESS", "name": "Williamsdale", "network_id": "NEM", "network_region": "NSW1", "description": "Eku Energy has partnered with the Australian Capital Territory (ACT) Government to deliver a 250 megawatt (MW) / 500 megawatt-hour (MWh) battery energy storage system (BESS).
Located at Williamsdale in the south of Canberra, the battery will store enough renewable energy to power one-third of Canberra for two hours during peak demand periods, increasing energy security and reliability for Canberrans.
The Willogoleche Wind Farm is a wind farm in the vicinity of Hallett in the Mid North region of South Australia. It generates up to 119 MW of electricity. There are 32 turbines in the wind farm. The closest to the town of Hallett is 3.2km west of the town, and the furthest is 8.3km southwest of the town. It was officially opened on 30 July 2019. The electricity generated is sold by Engie's retail brand Simply Energy.The Australian Energy Market Operator expected the wind farm to start providing electricity to the grid from Winter 2018. A generation licence was issued on 20 June 2018 for 32 turbines to generate up to 122.56MW. The Willogoleche Wind Farm in Hallet, South Australia officially opened in July 2019.
", "units": [ { "code": "WGWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 119.0, "data_first_seen": "2018-08-29T14:40:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "NINEWIL", "name": "Willoughby", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "NINEWIL1", "fueltech_id": "distillate", "status_id": "retired", "capacity_registered": 3.0, "emissions_factor_co2": 0.957, "dispatch_type": "GENERATOR" } ] }, { "code": "WINDHILL", "name": "Windy Hill", "network_id": "NEM", "network_region": "QLD1", "description": "Windy Hill Wind Farm is a wind power station near Ravenshoe on the Atherton Tablelands, Queensland, Australia. Windy Hill has 20 wind turbines with a generating capacity of 12 MW of electricity, providing enough power for about 3,500 homes. The cost of the project was A$20 million. It was the second wind farm to be constructed in Queensland after the 0.45Mw station on Thursday Island (1997).
The power station was commissioned in 2000 and was initially operated by the Stanwell Corporation. In December 2007 Windy Hill was sold to Transfield Services Infrastructure Fund (TSIF) as part of Queensland Government's ClimateSmart 2050 strategy. A new substation was built to allow the wind farm's power to connect to the existing 66 kV transmission line. RATCH-Australia bought TSIF in 2011.
EDL owns and operates the Wingfield I and II power stations, which are located adjacent to and work collaboratively with the world-class Wingfield Waste and Recycling Centre.
", "units": [ { "code": "WINGF1_1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 4.12, "emissions_factor_co2": 0.143, "dispatch_type": "GENERATOR" } ] }, { "code": "WINGF2", "name": "Wingfield 2", "network_id": "NEM", "network_region": "SA1", "description": "EDL owns and operates the Wingfield I and II power stations, which are located adjacent to and work collaboratively with the world-class Wingfield Waste and Recycling Centre.
", "units": [ { "code": "WINGF2_1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 4.12, "emissions_factor_co2": 0.0763, "dispatch_type": "GENERATOR" } ] }, { "code": "WINTSF1", "name": "Winton", "network_id": "NEM", "network_region": "VIC1", "description": "FRV, a global renewable energy solutions provider and leading solar developer, is currently constructing the 85 MW AC Winton Solar Farm project, near Benalla in Victoria.
", "units": [ { "code": "WINTSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 107.0, "data_first_seen": "2021-03-30T05:15:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WIVENHOE", "name": "Wivenhoe", "network_id": "NEM", "network_region": "QLD1", "description": "The Wivenhoe Power Station is situated between the Splityard Creek Dam and Lake Wivenhoe. The Splityard Creek dam is situated in hills adjacent to Lake Wivenhoe and is about 100 metres (330 ft) above it.The Wivenhoe Dam has been built across the Brisbane River about 80 kilometres (50 mi) by road from the centre of Brisbane, the capital of the state of Queensland, Australia. The body of water held behind the dam is called Lake Wivenhoe.
", "units": [ { "code": "PUMP2", "fueltech_id": "pumps", "status_id": "operating", "capacity_registered": 240.0, "data_first_seen": "1998-12-29T03:35:00+10:00", "data_last_seen": "2025-07-21T14:30:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "W/HOE#1", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 285.0, "data_first_seen": "1998-12-17T15:35:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "PUMP1", "fueltech_id": "pumps", "status_id": "operating", "capacity_registered": 240.0, "data_first_seen": "1998-12-20T03:45:00+10:00", "data_last_seen": "2025-07-21T15:50:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "W/HOE#2", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 285.0, "data_first_seen": "1998-12-15T10:45:00+10:00", "data_last_seen": "2025-07-21T18:35:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WIVENSH", "name": "Wivenhoe", "network_id": "NEM", "network_region": "QLD1", "description": "", "units": [ { "code": "WIVENSH", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 5.0, "dispatch_type": "GENERATOR" } ] }, { "code": "WOLARSF", "name": "Wollar", "network_id": "NEM", "network_region": "NSW1", "description": "The solar farm will be located on the western side of Barigan Road approximately 7km south of Wollar, around 50km from Mudgee.
Wollar Solar Farm will have a capacity of up to 280MWac and comprise approximately 660,000 solar panels across almost 500 hectares.
", "units": [ { "code": "WOLARSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 324.0, "data_first_seen": "2025-01-28T09:35:00+10:00", "data_last_seen": "2025-07-21T17:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WOLLERT", "name": "Wollert", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "WOLLERT1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 7.0, "emissions_factor_co2": 0.0718, "dispatch_type": "GENERATOR" } ] }, { "code": "WONWP", "name": "Wonthaggi", "network_id": "NEM", "network_region": "VIC1", "description": "Wonthaggi wind farm is a wind power station at Wonthaggi in Gippsland, Victoria, Australia. It has 6 wind turbines, with a total generating capacity of 12 MW of electricity.
", "units": [ { "code": "WONWP", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 12.0, "dispatch_type": "GENERATOR" } ] }, { "code": "WDLNGN", "name": "Woodlawn", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "WDLNGN01", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 7.0, "emissions_factor_co2": 0.0717, "dispatch_type": "GENERATOR" } ] }, { "code": "WOODLWN", "name": "Woodlawn", "network_id": "NEM", "network_region": "NSW1", "description": "The Woodlawn Wind Farm is a wind farm located near Bungendore, New South Wales. It is part of the Capital Renewable Energy Precinct, along with nearby Capital Wind Farm and the Woodlawn Bioreactor.
Woodlawn Wind Farm was owner and operator Infigen Energy's sixth Australian wind farm. It is a 48.3 megawatt wind farm with 23 turbines. The energy produced by the wind farm can power around 32,000 average Australian households per year, saving over 138,000 tonnes of greenhouse gas emissions per year.
Woolnorth Wind Farm is a wind power development, comprising two wind farms, at the Woolnorth property at Woolnorth (which includes the location known as Cape Grim), in the far north-west of Tasmania, Australia. Both wind farms are operated by Woolnorth Wind Farm Holdings, a joint venture between Hydro Tasmania (who own a 25% share) and Shenhua Group (75% share).Bluff Point Wind Farm was constructed in two stages. The first consisted of six Vestas 1.75 MW (2,350 hp) turbines and was commissioned in 2002. Stage two, commissioned in 2004, expanded the wind farm with a further 31 of the same turbines, for a total generating capacity of 65 MW (87,000 hp).Studland Bay Wind Farm was commissioned in 2007 and consists of 25 Vestas V90 3 MW (4,000 hp) turbines, for a total capacity of 75 MW (101,000 hp).Tours to the wind farms are available and operated by a private commercial entity.
", "units": [ { "code": "WOOLNTH1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 140.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WOOLGSF", "name": "Woolooga", "network_id": "NEM", "network_region": "QLD1", "description": "This 214MWp project in Lower Wonga, Queensland began construction in June 2021, and interested parties will be able to find all the information they need about the Woolooga project here.
", "units": [ { "code": "0WOOLGBG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 222.0, "dispatch_type": "GENERATOR" }, { "code": "0WOOLGBL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 222.0, "dispatch_type": "LOAD" }, { "code": "WOOLGSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 222.5, "data_first_seen": "2022-05-24T00:05:00+10:00", "data_last_seen": "2025-07-21T17:05:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "0WOORBESS", "name": "Wooreen", "network_id": "NEM", "network_region": "VIC1", "description": "EnergyAustralia has committed to building a four-hour utility-scale battery of 350 MW capacity, which is scheduled to be in operation before the end of 2026. The project will provide an economic boost for the Gippsland region, helping to secure Victoria\u2019s energy supply, enable more renewable energy to enter the electricity network and carry on the Latrobe Valley\u2019s proud history of powering industry and communities. EnergyAustralia\u2019s gas-fired Jeeralang power station, located at Hazelwood North in the Latrobe Valley, has been selected as the preferred location for our battery development, based on land availability and optimal connection to the grid.
", "units": [ { "code": "0WESSL1", "fueltech_id": "battery_charging", "status_id": "committed", "capacity_registered": 350.0, "dispatch_type": "LOAD" }, { "code": "0WESSG1", "fueltech_id": "battery_discharging", "status_id": "committed", "capacity_registered": 350.0, "dispatch_type": "GENERATOR" } ] }, { "code": "WOYWOY", "name": "Woy Woy", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "WOYWOY1", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.0696, "dispatch_type": "GENERATOR" } ] }, { "code": "WUNUSF", "name": "Wunghnu", "network_id": "NEM", "network_region": "VIC1", "description": "The Wunghnu Solar Farm project consists of a 90 MWdc solar farm and battery energy storage system (BESS). The solar project is located on Reillys Pit Road, Wunghnu, in the Goulburn Valley Region of Victoria. Development approval was received from Moira Shire Council in June 2018. The solar farm is situated on 222 hectares of agricultural land, which has been predominantly used for cropping.
", "units": [ { "code": "WUNUSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 93.5, "data_first_seen": "2024-11-19T05:40:00+10:00", "data_last_seen": "2025-07-21T17:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WYASF", "name": "Wyalong", "network_id": "NEM", "network_region": "NSW1", "description": "Situated 7.5 km north east of West Wyalong in New South Wales and occupying approximately 160 hectares of land, the Wyalong Solar Farm will generate enough electricity to power 27,000 average Australian homes, whilst also creating 150 jobs during construction and full and part-time positions during operation.
", "units": [ { "code": "WYASF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 62.32, "data_first_seen": "2023-08-01T11:10:00+10:00", "data_last_seen": "2025-07-21T17:10:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "WYANGALA", "name": "Wyangala A", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "WYANGALA", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 20.0, "dispatch_type": "GENERATOR" } ] }, { "code": "WYANGALB", "name": "Wyangala B", "network_id": "NEM", "network_region": "NSW1", "description": "", "units": [ { "code": "WYANGALB", "fueltech_id": "hydro", "status_id": "operating", "capacity_registered": 4.0, "dispatch_type": "GENERATOR" } ] }, { "code": "WYNDW", "name": "Wyndham", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "WYNDW", "fueltech_id": "bioenergy_biogas", "status_id": "operating", "capacity_registered": 1.0, "emissions_factor_co2": 0.0766, "dispatch_type": "GENERATOR" } ] }, { "code": "YALLOURN", "name": "Yallourn W", "network_id": "NEM", "network_region": "VIC1", "description": "The Yallourn Power Station, now owned by EnergyAustralia a wholly owned subsidiary of the Hong-Kong\u2013based CLP Group, is located in the Latrobe Valley of Victoria, Australia, beside the Latrobe River. Yallourn PS was a complex of six brown coal\u2013fired thermal power stations built progressively from the 1920s to the 1960s; all except one have now been decommissioned. Today, only the 1,450 megawatts Yallourn W plant remains. It is the second largest power station in Victoria, supplying 22% of Victoria's electricity and 8% of the National Electricity Market.
", "units": [ { "code": "YWPS4", "fueltech_id": "coal_brown", "status_id": "operating", "capacity_registered": 380.0, "emissions_factor_co2": 1.2999, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "YWPS2", "fueltech_id": "coal_brown", "status_id": "operating", "capacity_registered": 360.0, "emissions_factor_co2": 1.2999, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "YWPS3", "fueltech_id": "coal_brown", "status_id": "operating", "capacity_registered": 380.0, "emissions_factor_co2": 1.2999, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" }, { "code": "YWPS1", "fueltech_id": "coal_brown", "status_id": "operating", "capacity_registered": 360.0, "emissions_factor_co2": 1.2999, "data_first_seen": "1998-12-07T02:50:00+10:00", "data_last_seen": "2025-07-12T18:25:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "YSWF", "name": "Yaloak South", "network_id": "NEM", "network_region": "VIC1", "description": "Located an hour west of Melbourne approximately 15 kilometres south of Ballan, the Yaloak South Wind Farm commenced construction in late 2016 and construction was completed in June 2018, 25 days ahead of schedule.
The project comprises fourteen Senvion MM92 wind turbine generators, rated at 2.05MW each, providing a total installed capacity of 28.7MW with a maximum hub height of 80m and a maximum tip height of 126.25m.
The project has been built in the southern section of the Parwan Valley, which is predominantly cleared agricultural land used for cropping and livestock grazing. Initial plans for a 70 turbine, 115MW capacity wind farm at the site were amended following concerns from local residents of the Parwan Valley about the potential impact on the wedge-tail eagle population and the visual amenity of the local area.
", "units": [ { "code": "YSWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 28.7, "data_first_seen": "2017-12-19T22:15:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "YAMBUK", "name": "Yambuk", "network_id": "NEM", "network_region": "VIC1", "description": "The Yambuk wind farm is the first stage of Pacific Blue\u2019s four-stage Portland Wind Energy Project (PWEP) in southwest Victoria.
Located next to our Codrington Wind Farm, near Port Fairy, the site was chosen for its ideal wind conditions \u2013 its average annual wind speed of 30km/h is perfect for producing clean, non-polluting electricity.
Completed in 2005, the 30MW Yambuk wind farm comprises 20 wind generators that produce enough energy to meet the annual needs of 35,000 homes per annum, with an average electricity generation of 92.6GWh per year. The turbines installed are NEG Micon NM72C wind turbine generators, rated at 1.5MW each, with a maximum hub height of 70m and a maximum blade tip height of 106m.
", "units": [ { "code": "YAMBUKWF", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 30.0, "data_first_seen": "2009-07-01T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "YANDIN", "name": "Yandin", "network_id": "WEM", "network_region": "WEM", "description": "Yandin Wind Farm is Western Australia's largest wind power station located in Dandaragan, Western Australia. Construction was completed in late October 2020. It comprises of 51 turbines with hub heights of 105m to maximise performance in the site\u2019s specific wind conditions
", "units": [ { "code": "YANDIN_WF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 214.0, "data_first_seen": "2020-07-13T07:00:00+10:00", "data_last_seen": "2025-07-21T07:55:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "YARANSF", "name": "Yarranlea", "network_id": "NEM", "network_region": "QLD1", "description": "Yarranlea Solar is an innovative energy company, which has been established to harness the Earth's abundant natural resources to create carbon-free energy. Using a range of technologies, our aim is to deliver renewable energy to established power grids across a 24 hour period. Yarranlea Solar is named after our flagship project located on sparsely vegetated farmland approximately 50km west of Toowoomba. This project will connect to the power grid using the existing Ergon Energy infrastructure in the area.
", "units": [ { "code": "YARANSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 121.0, "data_first_seen": "2020-01-07T09:05:00+08:00", "data_last_seen": "2025-07-21T17:20:00+08:00", "dispatch_type": "GENERATOR" } ] }, { "code": "YWNGAHYD", "name": "Yarrawonga", "network_id": "NEM", "network_region": "VIC1", "description": "Yarrawonga Power Station is adjacent to the original weir structure on Lake Mulwala, on the Murray River, on the south side of the Victorian/NSW border. Yarrawonga Power Station was completed in 1994 and is a run-of-river scheme using a Kaplan-type turbine. The station has two ESAC variable pitch Kaplan turbo-alternators, each with a capacity of 4.75 MW, and feeds power into the Victorian transmission grid at a voltage of 22 kV. Despite the power station's presence, Lake Mulwala is kept at a reasonably constant level for recreational purposes. Changes in the head are driven by changes in the height of the Murray River. These changes are directly related to precipitation in the catchment areas and water releases from the Hume Dam.
Upstream storage control at Lake Hume and Dartmouth allows consistent storage levels at Lake Mulwala. This permits Yarrawonga Power Station to be a relatively consistent power producer.
The 258-hectare Yatpool Solar Farm in northwest Victoria has 350,000 solar PV panels installed totaling 106.5 MWp and generating enough renewable electricity to power 40,000 homes. The Yatpool Solar Farm is just 6km from its sister project the Karadoc Solar Farm which is already generating 112.5 MWp of clean power.
", "units": [ { "code": "YATSF1", "fueltech_id": "solar_utility", "status_id": "operating", "capacity_registered": 94.0, "data_first_seen": "2020-11-18T13:25:00+10:00", "data_last_seen": "2025-07-21T17:40:00+10:00", "dispatch_type": "GENERATOR" } ] }, { "code": "YAWWF", "name": "Yawong", "network_id": "NEM", "network_region": "VIC1", "description": "The Yawong Wind Farm was developed and constructed by BayWa r.e. Wind Pty Ltd in 2018, commenced operations in late 2018, and was acquired by Epic Energy in April 2019.
", "units": [ { "code": "YAWWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 7.2, "dispatch_type": "GENERATOR" } ] }, { "code": "YENDONWF", "name": "Yendon", "network_id": "NEM", "network_region": "VIC1", "description": "", "units": [ { "code": "YENDWF1", "fueltech_id": "wind", "status_id": "operating", "capacity_registered": 144.4, "data_first_seen": "2019-06-19T00:05:00+10:00", "data_last_seen": "2025-07-21T21:15:00+10:00", "dispatch_type": "GENERATOR" } ] } ], "total_records": 570 } ================================================ FILE: electricitymap/contrib/capacity_parsers/tests/test_ONS.py ================================================ from datetime import datetime import pandas as pd from electricitymap.contrib.capacity_parsers.ONS import filter_data_by_date def test_filter_data_by_date(): datetime_tuple1 = (datetime(1980, 1, 1), datetime(2015, 1, 1)) datetime_tuple2 = (datetime(2018, 10, 1), datetime(2023, 10, 1)) datetime_tuple3 = (datetime(2023, 7, 1), None) datetime_tuple4 = (datetime(2010, 1, 1), datetime(2024, 10, 1)) test_df = pd.DataFrame( [ {"start": datetime_tuple1[0], "end": datetime_tuple1[1], "value": 1}, {"start": datetime_tuple2[0], "end": datetime_tuple2[1], "value": 1}, {"start": datetime_tuple3[0], "end": datetime_tuple3[1], "value": 1}, {"start": datetime_tuple4[0], "end": datetime_tuple4[1], "value": 1}, ] ) dt_1 = datetime(2019, 1, 1) dt_2 = datetime(2015, 1, 1) dt_3 = datetime(2023, 10, 31) df_1 = filter_data_by_date(test_df, dt_1) df_2 = filter_data_by_date(test_df, dt_2) df_3 = filter_data_by_date(test_df, dt_3) filtered_test_df_1 = test_df.loc[ (test_df["start"].isin([datetime_tuple2[0], datetime_tuple4[0]])) ] filtered_test_df_2 = test_df.loc[ (test_df["start"].isin([datetime_tuple1[0], datetime_tuple4[0]])) ] filtered_test_df_3 = test_df.loc[ (test_df["start"].isin([datetime_tuple3[0], datetime_tuple4[0]])) ] assert df_1.equals(filtered_test_df_1) assert df_2.equals(filtered_test_df_2) assert df_3.equals(filtered_test_df_3) ================================================ FILE: electricitymap/contrib/capacity_parsers/tests/test_OPENELECTRICITY.py ================================================ import os from datetime import datetime from pathlib import Path import pandas as pd import pytest from requests_mock import ANY, GET from electricitymap.contrib.capacity_parsers.OPENELECTRICITY import ( fetch_production_capacity, filter_capacity_data_by_datetime, ) from electricitymap.contrib.config import ZoneKey base_path_to_mock = Path( "electricitymap/contrib/capacity_parsers/tests/mocks/OPENELECTRICITY" ) test_df = pd.DataFrame( [ {"datetime": datetime(2021, 1, 1), "value": 1}, {"datetime": datetime(2022, 1, 20), "value": 1}, {"datetime": datetime(2022, 4, 12), "value": 1}, {"datetime": datetime(2022, 10, 3), "value": 1}, {"datetime": datetime(2023, 3, 1), "value": 1}, ] ) @pytest.fixture(autouse=True) def openelectricity_token_env(): os.environ["OPENELECTRICITY_TOKEN"] = "token" def test_filter_capacity_data_by_datetime(): target_datetime_1 = datetime(2022, 3, 1) filtered_df_1 = filter_capacity_data_by_datetime(test_df, target_datetime_1) target_datetime_2 = datetime(2023, 10, 1) filtered_df_2 = filter_capacity_data_by_datetime(test_df, target_datetime_2) target_datetime_3 = datetime(2020, 10, 1) filtered_df_3 = filter_capacity_data_by_datetime(test_df, target_datetime_3) assert filtered_df_1.equals(test_df.loc[test_df["datetime"] <= target_datetime_1]) assert filtered_df_2.equals(test_df) assert filtered_df_3.equals( test_df.loc[test_df["datetime"] <= datetime(2021, 1, 1)] ) def test_fetch_capacities(adapter, session, snapshot): data = Path(base_path_to_mock, "AU-QLD_capacities.json") adapter.register_uri( GET, ANY, text=data.read_text(), ) target_datetime = datetime(2025, 1, 1) assert snapshot == fetch_production_capacity( ZoneKey("AU-QLD"), target_datetime, session ) ================================================ FILE: electricitymap/contrib/config/__init__.py ================================================ """Global config variables with data read from the config directory.""" from operator import itemgetter from pathlib import Path from typing import Any from electricitymap.contrib.config.co2eq_parameters import generate_co2eq_parameters from electricitymap.contrib.config.reading import ( read_data_centers_config, read_defaults, read_exchanges_config, read_zones_config, ) from electricitymap.contrib.config.zones import ( generate_all_neighbours, generate_zone_neighbours, zone_bounding_boxes, zone_parents, ) from electricitymap.contrib.types import BoundingBox, ZoneKey CONFIG_DIR = Path(__file__).parent.parent.parent.parent.joinpath("config").resolve() ZONES_CONFIG = read_zones_config(CONFIG_DIR) RETIRED_ZONES_CONFIG = read_zones_config(CONFIG_DIR, retired=True) EXCHANGES_CONFIG = read_exchanges_config(CONFIG_DIR) DATA_CENTERS_CONFIG = read_data_centers_config(CONFIG_DIR) EU_ZONES = [ "AT", "BE", "BG", "CY", "CZ", "DE", "DK-DK1", "DK-DK2", "EE", "ES", "ES-IB-ME", "ES-IB-MA", "ES-IB-IZ", "ES-IB-FO", "ES-CN-FV", "ES-CN-LZ", "ES-CN-GC", "ES-CN-TE", "ES-CN-LP", "ES-CN-IG", "ES-CN-HI", "ES-CE", "ES-ML", "FI", "FR", "FR-COR", "PF", "NC", "RE", "GF", "GP", "MQ", "PM", "GR", "HR", "HU", "IE", "IT-SAR", "IT-SIC", "IT-NO", "IT-CNO", "IT-CSO", "IT-SO", "LT", "LU", "LV", "MT", "NL", "PL", "PT", "PT-AC", "PT-MA", "RO", "SE-SE1", "SE-SE2", "SE-SE3", "SE-SE4", "AX", "SI", "SK", ] EU_ZONES_CONFIG = {k: v for k, v in ZONES_CONFIG.items() if k in EU_ZONES} # Prepare the CO2eq parameters config dicts. defaults = read_defaults(CONFIG_DIR) ( co2eq_parameters_all, co2eq_parameters_direct, co2eq_parameters_lifecycle, ) = generate_co2eq_parameters(defaults, ZONES_CONFIG) CO2EQ_PARAMETERS_DIRECT = {**co2eq_parameters_all, **co2eq_parameters_direct} CO2EQ_PARAMETERS_LIFECYCLE = {**co2eq_parameters_all, **co2eq_parameters_lifecycle} CO2EQ_PARAMETERS = CO2EQ_PARAMETERS_LIFECYCLE # Global LCA is the default # Make a dict mapping each zone to its bounding box. ZONE_BOUNDING_BOXES: dict[ZoneKey, BoundingBox] = zone_bounding_boxes(ZONES_CONFIG) # Make a mapping from subzone to the parent zone (full zone). ZONE_PARENT: dict[ZoneKey, ZoneKey] = zone_parents(ZONES_CONFIG) # Zone neighbours are zones that are connected by exchanges. ZONE_NEIGHBOURS: dict[ZoneKey, list[ZoneKey]] = generate_zone_neighbours( ZONES_CONFIG, EXCHANGES_CONFIG ) ALL_NEIGHBOURS: dict[ZoneKey, list[ZoneKey]] = generate_all_neighbours(EXCHANGES_CONFIG) def _get_most_recent_value(emission_factors: dict) -> dict[dict, Any]: return { k: max(v, key=itemgetter("datetime")) if isinstance(v, list) else v for k, v in emission_factors.items() } def emission_factors(zone_key: ZoneKey) -> dict[str, float]: """Looks up the emission factors for a given zone.""" override = CO2EQ_PARAMETERS["emissionFactors"]["zoneOverrides"].get(zone_key, {}) defaults = CO2EQ_PARAMETERS["emissionFactors"]["defaults"] # Only use most recent yearly numbers from defaults & overrides defaults = _get_most_recent_value(defaults) override = _get_most_recent_value(override) merged = {**defaults, **override} return {k: (v or {}).get("value") for (k, v) in merged.items()} ================================================ FILE: electricitymap/contrib/config/capacity.py ================================================ from dataclasses import dataclass from datetime import datetime from pathlib import Path from electricitymap.contrib.config.reading import read_zones_config from electricitymap.contrib.types import ZoneKey CONFIG_DIR = Path(__file__).parent.parent.parent.parent.joinpath("config").resolve() ZONES_CONFIG = read_zones_config(CONFIG_DIR) # Get productionCapacity source to zones mapping CAPACITY_PARSER_SOURCE_TO_ZONES: dict[str, list[ZoneKey]] = {} for zone_id, zone_config in ZONES_CONFIG.items(): if zone_config.get("parsers", {}).get("productionCapacity") is None: continue source = zone_config.get("parsers", {}).get("productionCapacity").split(".")[0] if source not in CAPACITY_PARSER_SOURCE_TO_ZONES: CAPACITY_PARSER_SOURCE_TO_ZONES[source] = [] CAPACITY_PARSER_SOURCE_TO_ZONES[source].append(zone_id) ZONE_TO_CAPACITY_PARSER_SOURCE = { zone: source for source, zones in CAPACITY_PARSER_SOURCE_TO_ZONES.items() for zone in zones } @dataclass class CapacityData: value: float | None source: str | None = None def get_capacity_data(capacity_config: dict, dt: datetime) -> dict[str, float | None]: """Gets the capacity data for a given zone and datetime from ZONES_CONFIG.""" capacity = {} for mode, capacity_value in capacity_config.items(): if isinstance(capacity_value, int | float | None): # TODO: This part is used for the old capacity format. It shoud be removed once all capacity configs are updated capacity[mode] = capacity_value else: capacity[mode] = _get_capacity_from_dict_or_list(capacity_value, dt).value return capacity def get_capacity_data_with_source( capacity_config: dict, dt: datetime ) -> dict[str, CapacityData]: """Gets the capacity data for a given zone and datetime from ZONES_CONFIG.""" capacity = {} for mode, capacity_value in capacity_config.items(): if isinstance(capacity_value, int | float): # TODO: This part is used for the old capacity format. It shoud be removed once all capacity configs are updated capacity[mode] = CapacityData(capacity_value) else: capacity[mode] = _get_capacity_from_dict_or_list(capacity_value, dt) return capacity def _get_capacity_from_dict_or_list( mode_capacity: list | dict, dt: datetime ) -> CapacityData: if isinstance(mode_capacity, dict): # TODO: To be removed as eventually we should only have lists. return CapacityData(mode_capacity["value"], mode_capacity.get("source")) elif isinstance(mode_capacity, list): capacity_tuples = [ (d["datetime"], d["value"], d.get("source")) for d in mode_capacity ] if dt.isoformat() <= min(capacity_tuples)[0]: return CapacityData(min(capacity_tuples)[1], min(capacity_tuples)[2]) else: # valid datetime is the max datetime that is lower than the given datetime # In other words, it is the most recent value that is valid for the given dt max_tuple = max( [(d, v, s) for d, v, s in capacity_tuples if d <= dt.isoformat()] ) return CapacityData(max_tuple[1], max_tuple[2]) ================================================ FILE: electricitymap/contrib/config/co2eq_parameters.py ================================================ """Contains a function to make co2eq parameter dicts from config read from defaults.yaml and zones/*.yaml. """ from typing import Any from electricitymap.contrib.types import ZoneKey def generate_co2eq_parameters( defaults: dict[str, Any], zones_config: dict[ZoneKey, Any] ) -> tuple[dict[str, Any], dict[str, Any], dict[str, Any]]: """Returns dicts with co2eq parameters. Args: defaults: config read from defaults.yaml zones_config: config read from zones/*.yaml Returns: co2eq_parameters_all: dict with co2eq parameters that apply to all zones co2eq_parameters_direct: dict with co2eq parameters that apply to direct emissions co2eq_parameters_lifecycle: dict with co2eq parameters that apply to lifecycle emissions """ co2eq_parameters_all = { k: { "defaults": defaults[k], "zoneOverrides": {}, } for k in ["fallbackZoneMixes", "isLowCarbon", "isRenewable"] } co2eq_parameters_direct = { "emissionFactors": { "defaults": defaults["emissionFactors"]["direct"], "zoneOverrides": {}, }, } co2eq_parameters_lifecycle = { "emissionFactors": { "defaults": defaults["emissionFactors"]["lifecycle"], "zoneOverrides": {}, }, } # Populate zone overrides. for zone_key, zone_config in zones_config.items(): for k in ["fallbackZoneMixes", "isLowCarbon", "isRenewable"]: if k in zone_config: co2eq_parameters_all[k]["zoneOverrides"][zone_key] = zone_config[k] del zone_config[k] if "emissionFactors" in zone_config: for k in ["direct", "lifecycle"]: if k in zone_config["emissionFactors"]: if k == "direct": co2eq_parameters_direct["emissionFactors"]["zoneOverrides"][ zone_key ] = zone_config["emissionFactors"][k] elif k == "lifecycle": co2eq_parameters_lifecycle["emissionFactors"]["zoneOverrides"][ zone_key ] = zone_config["emissionFactors"][k] del zone_config["emissionFactors"] return co2eq_parameters_all, co2eq_parameters_direct, co2eq_parameters_lifecycle ================================================ FILE: electricitymap/contrib/config/constants.py ================================================ EXCHANGE_FILENAME_ZONE_SEPARATOR = "_" WEATHER_GFS_KEYS = ["wind", "solar", "temperature", "dewpoint", "precipitation"] WEATHER_DATABASE_KEYS = [ "wind_x", "wind_y", "solar", "temperature", "dewpoint", "precipitation", ] # Note: this is sorted for plotting purposes PRODUCTION_MODES = [ "nuclear", "geothermal", "biomass", "coal", "wind", "solar", "hydro", "gas", "oil", "unknown", ] FORECASTED_PRODUCTION_MODES = [ "solar", "wind", ] STORAGE_MODES = [ "battery", "hydro", ] # TODO(olc): Find a more explicit name for `ENERGIES` # TODO(olc): This is forecast specific, so it should not be here. ENERGIES = PRODUCTION_MODES + [f"{s} discharge" for s in STORAGE_MODES] BATCH_SIZE = 500 PLOT_COLUMNS = { "consumptionForecast": {"title": "consumption forecast", "col": "value"}, "consumption": {"title": "consumption", "col": "consumption"}, "production": {"title": "production total", "col": "prod_total"}, "price": {"title": "price", "col": "price"}, "generationForecast": {"title": "generation forecast", "col": "value"}, "exchange": {"title": "exchange", "col": "netFlow"}, "exchangeForecast": {"title": "exchange forecast", "col": "netFlow"}, "weatherForecast": {"title": "weather forecast", "col": "value"}, } MODE_COLORS = { "wind": "#74cdb9", "solar": "#f27406", "hydro": "#2772b2", "battery charge": "lightgray", "hydro charge": "#0052cc", "hydro discharge": "#0052cc", "battery discharge": "lightgray", "biomass": "#166a57", "geothermal": "yellow", "nuclear": "#AEB800", "gas": "#bb2f51", "coal": "#ac8c35", "oil": "#867d66", "unknown": "lightgray", } weatherForecastSchemaVersion = 3 ================================================ FILE: electricitymap/contrib/config/data_center_model.py ================================================ """Data Center model definitions.""" import re from datetime import date from pydantic.v1 import BaseModel, validator from electricitymap.contrib.types import ZoneKey DATE_PATTERN = re.compile(r"^\d{4}(-\d{2}(-\d{2})?)?$") class StrictBaseModel(BaseModel): class Config: extra = "forbid" class DataCenter(BaseModel): provider: str lonlat: tuple[float, float] displayName: str region: str zoneKey: ZoneKey operationalSince: date | None operationalUntil: date | None status: str | None source: str | None @property def ID(self) -> str: return f"{self.provider}-{self.region}" @validator("provider", "region", "displayName") def string_not_empty(cls, v): if not v or v.strip() == "": raise ValueError("Value must be a non-empty string") return v @validator("lonlat") def lonlat_valid(cls, v): lon, lat = v if not (-180 <= lon <= 180): raise ValueError("Longitude must be between -180 and 180") if not (-90 <= lat <= 90): raise ValueError("Latitude must be between -90 and 90") return v @validator("operationalSince", "operationalUntil", pre=True) def parse_date(cls, v): if v is None or isinstance(v, date): return v if not isinstance(v, str) or not DATE_PATTERN.match(v): raise ValueError( f"Date '{v}' must be in YYYY, YYYY-MM, or YYYY-MM-DD format" ) parts = [int(p) for p in v.split("-")] year = parts[0] month = parts[1] if len(parts) >= 2 else 1 day = parts[2] if len(parts) == 3 else 1 try: return date(year, month, day) except ValueError as err: raise ValueError(f"Date '{v}' is not a valid calendar date") from err @validator("zoneKey") def zone_key_exists(cls, v): # Import here to avoid circular dependency from electricitymap.contrib.config import ZONES_CONFIG if v not in ZONES_CONFIG: raise ValueError( f"Data center zone key {v} is not one of the allowed zone keys: {ZONES_CONFIG.keys()}" ) return v class DataCenters(BaseModel): """Container for data centers.""" data_centers: list[DataCenter] class Config: extra = "forbid" # check that the ID for each data center is unique @validator("data_centers") def ids_are_unique(cls, v): ids = set() for data_center in v: if data_center.ID in ids: raise ValueError(f"Duplicate data center ID found: {data_center.ID}") ids.add(data_center.ID) return v @validator("data_centers") def check_unique_combination(cls, v): combinations = set() for data_center in v: combination = ( data_center.provider, data_center.region, data_center.zoneKey, ) if combination in combinations: raise ValueError( f"Duplicate provider-region-zoneKey combination found: {combination}" ) combinations.add(combination) return v ================================================ FILE: electricitymap/contrib/config/emission_factors_lookup.py ================================================ from datetime import datetime, timezone from operator import itemgetter from typing import Any from pydantic import ValidationError from electricitymap.contrib.config import ( CO2EQ_PARAMETERS_DIRECT, CO2EQ_PARAMETERS_LIFECYCLE, ZONE_PARENT, ZONES_CONFIG, ) from electricitymap.contrib.config.constants import ENERGIES from electricitymap.contrib.config.model import ( EmissionFactorVariant, YearZoneModeEmissionFactor, ) from electricitymap.contrib.types import ZoneKey def get_zone_specific_co2eq_parameter( co2eq_parameters: dict, zone_key: str, key: str, sub_key: str, dt: datetime, metadata: bool = False, ) -> dict[str, float]: if metadata: return _get_zone_specific_co2eq_parameter_with_metadata( co2eq_parameters=co2eq_parameters, zone_key=zone_key, key=key, sub_key=sub_key, dt=dt, ) else: return _get_zone_specific_co2eq_parameter_no_metadata( co2eq_parameters=co2eq_parameters, zone_key=zone_key, key=key, sub_key=sub_key, dt=dt, ) def _get_zone_specific_co2eq_parameter_no_metadata( co2eq_parameters: dict, zone_key: str, key: str, sub_key: str, dt: datetime ) -> dict[str, float]: # TODO: actually this returns Union[Dict, bool] """Accessor for co2eq_parameters. If Available, it will return the zoneOverride value. If not, it will return the default value. Args: co2eq_parameters (dict): The dictionary to read from. zone_key (str): The zone_key to try and find a zoneOverride for. key (str): The key of the parameter to find. sub_key (str): The specific sub key inside the parameter that you want to access dt (datetime): Will return the most recent co2eq for that dt. For the latest co2eq, pass `datetime.max` Raises: ValueError: Raised when both the zoneOverride and default value is unavailable """ # TODO this doesn't raise a ValueError at the moment. Which gives typing errors because it can return None. params = co2eq_parameters[key] zone_key = ZoneKey(zone_key) defaults = params["defaults"][sub_key] zone_override = params["zoneOverrides"].get(zone_key, {}).get(sub_key, None) # If no entry was found, use the parent if it exists if ZONE_PARENT.get(zone_key) and not zone_override: zone_override = ( params["zoneOverrides"].get(ZONE_PARENT[zone_key], {}).get(sub_key, None) ) res = None res = zone_override if zone_override is not None else defaults if isinstance(res, list): # `n` dates are sorted in ascending order (d1, d2, ..., dn) # d1 is valid from from (epoch to d2) # d2 is valid from (d2 to d3) # dn is valid from (dn to end_of_time) if len(res) == 0: raise ValueError( f"Error in given co2eq_parameters. List is empty for [{zone_key}, {key}, {sub_key}]" ) res.sort(key=itemgetter("datetime")) dt = dt.replace(tzinfo=timezone.utc) for co2eq in reversed(res): co2eq_dt = datetime.fromisoformat(co2eq["datetime"]).replace( tzinfo=timezone.utc ) if co2eq_dt <= dt: return co2eq # type: ignore[no-any-return] return res[0] # type: ignore[no-any-return] else: return res # type: ignore[no-any-return] def _get_zone_specific_co2eq_parameter_with_metadata( co2eq_parameters: dict, zone_key: str, key: str, sub_key: str, dt: datetime, ) -> dict[str, Any]: """ Lookup logic identical to get_zone_specific_co2eq_parameter. Adds a 'variant' field that provides context about where an emission factor comes from. Variant selection logic: GLOBAL/ZONE -> defined in config/defaults.yaml or config/zones/ text (updated at)
footer_pre = table.find("tfoot").find("pre").get_text(strip=True)
# Extract the datetime part (remove 'Updated: ')
datetime_part = footer_pre.replace("Updated: ", "")
# Parse the datetime
updated_at = datetime.strptime(datetime_part, " %m/%d/%Y %I:%M %p").replace(
tzinfo=ZoneInfo("America/New_York")
)
issued_at = updated_at
grid_alert_list = GridAlertList(logger)
# Extract table rows
for tr in table.find("tbody").find_all("tr"):
cells = tr.find_all("td")
# Rows with at least 3 cells
row_data = [
cells[0].get_text(strip=True),
cells[1].get_text(strip=True),
cells[2].get_text(strip=True),
]
# If message starts by "Normal":
if row_data[1].startswith("Normal"):
continue
# If "time in" is not empty
if row_data[2] != "":
time_in = row_data[2]
time_in = datetime.strptime(time_in, "%m/%d/%Y %I:%M:%S %p").replace(
tzinfo=ZoneInfo("America/New_York")
)
issued_at = time_in
# Append
grid_alert_list.append(
zoneKey=zone_key,
locationRegion=row_data[0],
source=SOURCE,
alertType=GridAlertType.undefined,
message=row_data[1],
issuedTime=issued_at,
startTime=None, # if None, it defaults to issuedTime
endTime=None,
)
# TODO: maybe extract startTime and endTime from each notification?
# TODO: maybe extract alertType from each notification?
return grid_alert_list.to_list()
if __name__ == "__main__":
"""Main method, never used by the Electricity Map backend, but handy for testing."""
from pprint import pprint
"""
print("fetch_production() ->")
pprint(fetch_production())
print(
'fetch_production(target_datetime=datetime.fromisoformat("2017-12-31T12:00:00+00:00")) ->'
)
pprint(
fetch_production(
target_datetime=datetime.fromisoformat("2017-12-31T12:00:00+00:00")
)
)
print(
'fetch_production(target_datetime=datetime.fromisoformat("2007-03-13T12:00:00+00:00")) ->'
)
pprint(
fetch_production(
target_datetime=datetime.fromisoformat("2007-03-13T12:00:00+00:00")
)
)
print(f'fetch_exchange("{US_NEISO_KEY}", "CA-QC") ->')
pprint(fetch_exchange(US_NEISO_KEY, ZoneKey("CA-QC")))
print(
f'fetch_exchange("{US_NEISO_KEY}", "CA-QC", target_datetime=datetime.fromisoformat("2017-12-31T12:00:00+00:00")) ->'
)
pprint(
fetch_exchange(
US_NEISO_KEY,
ZoneKey("CA-QC"),
target_datetime=datetime.fromisoformat("2017-12-31T12:00:00+00:00"),
)
)
print(
f'fetch_exchange("{US_NEISO_KEY}", "CA-QC", target_datetime=datetime.fromisoformat("2007-03-13T12:00:00+00:00")) ->'
)
pprint(
fetch_exchange(
US_NEISO_KEY,
ZoneKey("CA-QC"),
target_datetime=datetime.fromisoformat("2007-03-13T12:00:00+00:00"),
)
)
print("fetch_wind_solar_forecasts()")
pprint(fetch_wind_solar_forecasts())
pprint(fetch_consumption_forecast())
"""
print("fetch_grid_alerts()")
pprint(fetch_grid_alerts())
================================================
FILE: electricitymap/contrib/parsers/US_NY.py
================================================
#!/usr/bin/env python3
"""Real time parser for the state of New York."""
from collections import defaultdict
from datetime import datetime, timedelta
from io import BytesIO
from logging import Logger, getLogger
from operator import itemgetter
from typing import Any
from zipfile import ZipFile
from zoneinfo import ZoneInfo
import pandas as pd
from requests import Session
from requests.exceptions import HTTPError
from electricitymap.contrib.config import ZoneKey
from electricitymap.contrib.lib.models.event_lists import (
ExchangeList,
GridAlertList,
ProductionBreakdownList,
TotalConsumptionList,
)
from electricitymap.contrib.lib.models.events import (
EventSourceType,
GridAlertType,
ProductionMix,
)
from electricitymap.contrib.parsers.lib.config import refetch_frequency
# Pumped storage is present but is not split into a separate category.
# Dual Fuel systems can run either Natural Gas or Oil, they represent
# significantly more capacity in NY State than plants that can only
# burn Natural Gas. When looking up fuel usage for NY in 2016 in
# https://www.eia.gov/electricity/data/state/annual_generation_state.xls
# 100 times more energy came from NG than Oil. That means Oil
# consumption in the Dual Fuel systems is roughly ~1%, and to a first
# approximation it's just Natural Gas.
SOURCE = "nyiso.com"
TIMEZONE = ZoneInfo("America/New_York")
ZONE = "US-NY-NYIS"
mapping_pre_april_2020 = {
"Dual Fuel": "gas",
"Natural Gas": "gas",
"Nuclear": "nuclear",
"Other Fossil Fuels": "unknown",
"Other Renewables": "unknown",
"Wind": "wind",
"Hydro": "hydro",
}
mapping_post_april_2020 = {
"Dual Fuel": "gas",
"Natural Gas": "gas",
"Nuclear": "nuclear",
"Other Fossil Fuels": "oil",
"Other Renewables": "unknown",
"Wind": "wind",
"Hydro": "hydro",
}
def read_csv_data(session: Session, url: str) -> pd.DataFrame:
"""Gets csv data from a url and returns a dataframe."""
response = session.get(url)
response.raise_for_status()
csv_data = pd.read_csv(BytesIO(response.content))
return csv_data
def read_zip_data(session: Session, url: str, csv_file: str) -> pd.DataFrame:
"""Gets zip data from a url (with a session), extracts a csv file and returns a dataframe."""
response = session.get(url)
response.raise_for_status()
zip_file = ZipFile(BytesIO(response.content))
csv_data = pd.read_csv(zip_file.open(csv_file))
return csv_data
def timestamp_converter(timestamp_string: str) -> datetime:
"""Converts timestamps in nyiso data into aware datetime objects."""
try:
dt_naive = datetime.strptime(timestamp_string, "%m/%d/%Y %H:%M:%S")
except ValueError:
dt_naive = datetime.strptime(timestamp_string, "%m/%d/%Y %H:%M")
dt_aware = dt_naive.replace(tzinfo=TIMEZONE)
return dt_aware
def data_parser(df, mapping, logger) -> list[tuple[datetime, ProductionMix]]:
"""
Takes dataframe and loops over rows to form dictionaries consisting of datetime and generation type.
Merges these dictionaries using datetime key.
:return: list of tuples containing datetime and production.
"""
chunks = []
for row in df.itertuples():
piece = {}
piece["datetime"] = row[1]
piece[row[3]] = row[4]
chunks.append(piece)
# Join dicts on shared 'datetime' keys.
combine = defaultdict(dict)
for elem in chunks:
combine[elem["datetime"]].update(elem)
ordered = sorted(combine.values(), key=itemgetter("datetime"))
mapped_generation = []
for item in ordered:
mix = ProductionMix()
dt = timestamp_converter(item.pop("datetime"))
for key, val in item.items():
try:
mix.add_value(mapping[key], val)
except KeyError:
logger.warning("Unrecognized production key '%s'", key)
mapped_generation.append((dt, mix))
return mapped_generation
@refetch_frequency(timedelta(days=1))
def fetch_production(
zone_key: ZoneKey = ZoneKey(ZONE),
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Requests the last known production mix (in MW) of a given zone."""
session = session or Session()
if target_datetime is None:
target_datetime = datetime.now(tz=TIMEZONE)
else:
# assume passed in correct timezone
target_datetime = target_datetime.replace(tzinfo=TIMEZONE)
ny_date = target_datetime.strftime("%Y%m%d")
if (datetime.now(tz=TIMEZONE) - target_datetime).days <= 9:
mix_url = f"http://mis.nyiso.com/public/csv/rtfuelmix/{ny_date}rtfuelmix.csv"
try:
raw_data = read_csv_data(session, mix_url)
except HTTPError:
# this can happen when target_datetime has no data available
return []
else:
mix_csv = f"{ny_date}rtfuelmix.csv"
ny_zip_date = target_datetime.strftime("%Y%m01")
mix_zip_url = (
f"http://mis.nyiso.com/public/csv/rtfuelmix/{ny_zip_date}rtfuelmix_csv.zip"
)
try:
raw_data = read_zip_data(session, mix_zip_url, mix_csv)
except (HTTPError, KeyError):
# this can happen when target_datetime has no data available
return []
if target_datetime > datetime(2020, 4, 1, tzinfo=TIMEZONE):
clean_data = data_parser(raw_data, mapping_post_april_2020, logger)
else:
clean_data = data_parser(raw_data, mapping_pre_april_2020, logger)
production_breakdowns = ProductionBreakdownList(logger=logger)
for dt, mix in clean_data:
production_breakdowns.append(
zoneKey=zone_key,
datetime=dt,
production=mix,
source=SOURCE,
)
return production_breakdowns.to_list()
@refetch_frequency(timedelta(hours=24))
def fetch_exchange(
zone_key1: ZoneKey,
zone_key2: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Requests the last known power exchange (in MW) between two zones."""
session = session or Session()
sorted_zone_keys = ZoneKey("->".join(sorted([zone_key1, zone_key2])))
# In the source CSV, positive is flow into NY, negative is flow out of NY.
# In Electricity Map, A->B means flow to B is positive.
if (
sorted_zone_keys == "US-NEISO->US-NY"
or sorted_zone_keys == "US-NE-ISNE->US-NY-NYIS"
):
direction = 1
relevant_exchanges = ["SCH - NE - NY", "SCH - NPX_1385", "SCH - NPX_CSC"]
elif sorted_zone_keys == "US-NY->US-PJM":
direction = -1
relevant_exchanges = [
"SCH - PJ - NY",
"SCH - PJM_HTP",
"SCH - PJM_NEPTUNE",
"SCH - PJM_VFT",
]
elif sorted_zone_keys == "US-MIDA-PJM->US-NY-NYIS":
direction = 1
relevant_exchanges = [
"SCH - PJ - NY",
"SCH - PJM_HTP",
"SCH - PJM_NEPTUNE",
"SCH - PJM_VFT",
]
elif sorted_zone_keys == "CA-ON->US-NY" or sorted_zone_keys == "CA-ON->US-NY-NYIS":
direction = 1
relevant_exchanges = ["SCH - OH - NY"]
elif sorted_zone_keys == "CA-QC->US-NY" or sorted_zone_keys == "CA-QC->US-NY-NYIS":
direction = 1
relevant_exchanges = ["SCH - HQ_CEDARS", "SCH - HQ - NY"]
else:
raise NotImplementedError(f"Exchange pair not supported: {sorted_zone_keys}")
if target_datetime is None:
target_datetime = datetime.now(tz=TIMEZONE)
ny_date = target_datetime.strftime("%Y%m%d")
file_name = f"{ny_date}ExternalLimitsFlows.csv"
exchange_url = "http://mis.nyiso.com/public/csv/ExternalLimitsFlows"
csv_url = f"{exchange_url}/{file_name}"
try:
exchange_data = read_csv_data(session, csv_url)
except HTTPError:
try:
ny_zip_date = target_datetime.strftime("%Y%m01")
zip_file_name = f"{ny_zip_date}ExternalLimitsFlows_csv.zip"
zip_url = f"{exchange_url}/{zip_file_name}"
exchange_data = read_zip_data(session, zip_url, file_name)
except HTTPError:
# this can happen when target_datetime has no data available
return []
new_england_exs = exchange_data.loc[
exchange_data["Interface Name"].isin(relevant_exchanges)
]
consolidated_flows = (
new_england_exs.reset_index().groupby("Timestamp").sum(numeric_only=True)
)
now = datetime.now(tz=TIMEZONE)
exchange_5min = ExchangeList(logger)
for row in consolidated_flows.itertuples():
flow = float(row[3]) * direction
# Timestamp for exchange does not include seconds.
dt = timestamp_converter(row[0] + ":00")
if (dt > now) and ((dt - now) < timedelta(seconds=300)):
# NYISO exchanges CSV (and only the exchanges CSV) includes data
# up to 5 minutes in the future (but only 5 minutes in the future).
# This also happens on their official website.
# Electricity Map raises error with data in the future, so skip
# that datapoint. If it's more than 5 minutes in the future,
# it's weird/unexpected and thus worthy of failure and logging.
continue
exchange_5min.append(
source=SOURCE, datetime=dt, netFlow=flow, zoneKey=sorted_zone_keys
)
return exchange_5min.to_list()
def fetch_consumption_forecast(
zone_key: ZoneKey = ZoneKey(ZONE),
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Requests the load forecast (in MW) for a given date in hourly intervals."""
session = session or Session()
# Datetime
if target_datetime is None:
target_datetime = datetime.now(tz=TIMEZONE)
else:
# assume passed in correct timezone
target_datetime = target_datetime.replace(tzinfo=TIMEZONE)
ny_date = target_datetime.strftime("%Y%m%d")
if (datetime.now(tz=TIMEZONE) - target_datetime).days <= 9:
target_url = f"http://mis.nyiso.com/public/csv/isolf/{ny_date}isolf.csv"
try:
df = read_csv_data(session, target_url)
except HTTPError:
# this can happen when target_datetime has no data available
return []
else:
target_csv = f"{ny_date}isolf.csv"
ny_zip_date = target_datetime.strftime("%Y%m01")
target_zip_url = (
f"http://mis.nyiso.com/public/csv/isolf/{ny_zip_date}isolf_csv.zip"
)
try:
df = read_zip_data(session, target_zip_url, target_csv)
except (HTTPError, KeyError):
# this can happen when target_datetime has no data available
return []
# Add events consumption_list
all_consumption_events = (
df.copy()
) # all events with a datetime and a generation value
consumption_list = TotalConsumptionList(logger)
for _index, event in all_consumption_events.iterrows():
event_datetime = timestamp_converter(event["Time Stamp"])
consumption_list.append(
zoneKey=zone_key,
datetime=event_datetime,
consumption=event["NYISO"],
source=SOURCE,
sourceType=EventSourceType.forecasted,
)
return consumption_list.to_list()
def fetch_grid_alerts(
zone_key: ZoneKey = ZoneKey(ZONE),
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Fetch Grid Alerts from NYISO (http://mis.nyiso.com/public/P-35list.htm)"""
session = session or Session()
# Target Datetime
if target_datetime is None:
target_datetime = datetime.now(tz=TIMEZONE)
else:
# assume passed in correct timezone
target_datetime = target_datetime.replace(tzinfo=TIMEZONE)
# Make URL with specified date
target_datetime_string = target_datetime.strftime("%Y%m%d")
url = (
"http://mis.nyiso.com/public/csv/RealTimeEvents/"
+ target_datetime_string
+ "RealTimeEvents.csv"
)
# Make the request and check for success
try:
csv = pd.read_csv(url)
except Exception as e:
logger.error(
"Failed to fetch grid alerts from NYISO for date of %s: %s",
target_datetime_string,
e,
)
return []
# TODO: maybe extract locationRegion from each notification?
# TODO: maybe extract startTime and endTime from each notification?
# TODO: maybe extract alertType from each notification?
# Record events in grid_alert_list
grid_alert_list = GridAlertList(logger)
for _, notification in csv.iterrows():
# Parse and assign EDT timezone
dt_edt = datetime.strptime(
notification["Timestamp"], "%m/%d/%Y %H:%M:%S"
).replace(tzinfo=TIMEZONE)
# Convert to UTC
dt_utc = dt_edt.astimezone(ZoneInfo("UTC"))
# Parse message
message = notification["Message"]
if message.startswith("**") and message.endswith("**"):
# If the message is not the normal state (starting and ending with "**""), we add it to the grid_alert_list
message_content = message[2:-2]
grid_alert_list.append(
zoneKey=zone_key,
locationRegion=None,
source=SOURCE,
alertType=GridAlertType.undefined,
message=message_content,
issuedTime=dt_utc,
startTime=None, # if None, it defaults to issuedTime
endTime=None,
)
return grid_alert_list.to_list()
if __name__ == "__main__":
"""Main method, never used by the Electricity Map backend, but handy for testing."""
from pprint import pprint
"""
print("fetch_production() ->")
pprint(fetch_production())
print("fetch_production(target_datetime=datetime(2018, 3, 13, 12, 0)) ->")
pprint(fetch_production(target_datetime=datetime(2018, 3, 13, 12, 0)))
print("fetch_production(target_datetime=datetime(2007, 3, 13, 12)) ->")
pprint(fetch_production(target_datetime=datetime(2007, 3, 13, 12)))
print("fetch_exchange(US-NY, US-NEISO)")
pprint(fetch_exchange("US-NY", "US-NEISO"))
print('fetch_exchange("US-NY", "CA-QC")')
pprint(fetch_exchange("US-NY", "CA-QC"))
print(
'fetch_exchange("US-NY", "CA-QC", target_datetime=datetime(2018, 3, 13, 12, 0))'
)
pprint(
fetch_exchange("US-NY", "CA-QC", target_datetime=datetime(2018, 3, 13, 12, 0))
)
print(
'fetch_exchange("US-NY", "CA-QC", target_datetime=datetime(2007, 3, 13, 12)))'
)
pprint(fetch_exchange("US-NY", "CA-QC", target_datetime=datetime(2007, 3, 13, 12)))
print("fetch_consumption_forecast() ->")
pprint(fetch_consumption_forecast())
"""
print("fetch_grid_alerts() ->")
pprint(fetch_grid_alerts())
================================================
FILE: electricitymap/contrib/parsers/US_PJM.py
================================================
"""Parser for the PJM area of the United States (US-MIDA-PJM)."""
import gzip
import json
import re
from datetime import datetime, time, timedelta, timezone
from itertools import groupby
from logging import Logger, getLogger
from operator import itemgetter
from typing import Any, Literal
from zoneinfo import ZoneInfo
import demjson3 as demjson
from bs4 import BeautifulSoup
from requests import Response, Session
from electricitymap.contrib.lib.models.event_lists import (
ExchangeList,
GridAlertList,
ProductionBreakdownList,
TotalConsumptionList,
)
from electricitymap.contrib.lib.models.events import (
EventSourceType,
GridAlertType,
ProductionMix,
StorageMix,
)
from electricitymap.contrib.parsers.lib.config import refetch_frequency
from electricitymap.contrib.parsers.lib.exceptions import ParserException
from electricitymap.contrib.types import ZoneKey
PARSER = "US_PJM.py"
TIMEZONE = ZoneInfo("America/New_York")
ZONE_KEY = ZoneKey("US-MIDA-PJM")
# Used for production and consumption forecast data (https://dataminer2.pjm.com/list)
DATA_MINER_API_ENDPOINT = "https://api.pjm.com/api/v1/"
US_PROXY = "https://us-ca-proxy-jfnx5klx2a-uw.a.run.app"
DATA_PATH = "api/v1"
SOURCE = "pjm.com"
ZONE_TO_PJM_INTERFACES = {
ZoneKey("US-MIDW-MISO"): ["MISO"], # "MISO LMP"
# ?: ["DEOK|OVEC"], # Ohio Valley Electric Corporation (OVEC)
ZoneKey("US-MIDW-LGEE"): [
"SOUTH|LGEE"
], # Louisville Gas and Electric Company (LGEE)
ZoneKey("US-TEN-TVA"): ["SOUTH|TVA"], # Tennessee Valley Authority (TVA)
ZoneKey("US-CAR-CPLW"): ["SOUTH|CPLW"], # CPL Retail Energy West (CPLW)
ZoneKey("US-CAR-DUK"): ["SOUTH|DUKE"], # Duke Energy
ZoneKey("US-CAR-CPLE"): ["SOUTH|CPLE"], # CPL Retail Energy East (CPLE)
ZoneKey("US-NY-NYIS"): [
"NEPTUNE|SAYR", # NYISO (Neptune)
"LINDENVFT|LINDEN", # NYISO (Linden)
"HUDSONTP|HTP", # NYISO (Hudson)
"NYIS|NYIS", # "NYISO LMP"
],
}
FUEL_MAPPING = {
"Coal": "coal",
"Gas": "gas",
"Hydro": "hydro",
"Multiple Fuels": "unknown",
"Nuclear": "nuclear",
"Oil": "oil",
"Other": "unknown",
"Other Renewables": "unknown",
"Solar": "solar",
"Storage": "battery",
"Wind": "wind",
}
def _get_api_subscription_key(session: Session) -> str:
response = session.get("https://dataminer2.pjm.com/config/settings.json")
if not response.ok:
raise ParserException(
PARSER,
f"Could not get API key: {response.status_code}: {response.text}",
)
return response.json()["subscriptionKey"]
def _fetch_api_data(
kind: Literal[
"load_frcstd_7_day",
"gen_by_fuel",
"hourly_solar_power_forecast",
"hourly_wind_power_forecast",
],
params: dict,
session: Session,
) -> dict:
headers = {
"Ocp-Apim-Subscription-Key": _get_api_subscription_key(session=session),
"Accept-Encoding": "identity",
}
url = f"{US_PROXY}/{DATA_PATH}/{kind}"
resp: Response = session.get(
url=url, params={"host": "https://api.pjm.com", **params}, headers=headers
)
if (resp.status_code == 200) and (kind != "load_frcstd_7_day"):
data = resp.json()
return data
elif (resp.status_code == 200) and (kind == "load_frcstd_7_day"):
decompressed_data = gzip.decompress(resp.content)
data = json.loads(decompressed_data)
return data
else:
raise ParserException(
PARSER,
f"{kind} data is not available in the API: {resp.status_code}: {resp.text}",
)
def fetch_consumption_forecast(
zone_key: ZoneKey = ZONE_KEY,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Gets consumption forecast 7 days ahead for PJM zone. Hourly data in MW."""
if target_datetime is not None:
raise ParserException(
PARSER, "This parser is not yet able to parse historical data", zone_key
)
session = session or Session()
# startRow must be set if forecast_area is set. RTO_COMBINED is area for whole PJM zone.
params = {"download": True, "startRow": 1, "forecast_area": "RTO_COMBINED"}
data = _fetch_api_data(kind="load_frcstd_7_day", params=params, session=session)
consumption_list = TotalConsumptionList(logger)
for elem in data:
utc_datetime = elem["forecast_datetime_beginning_utc"]
consumption_list.append(
zoneKey=zone_key,
datetime=datetime.fromisoformat(utc_datetime).replace(tzinfo=timezone.utc),
source=SOURCE,
consumption=elem["forecast_load_mw"],
sourceType=EventSourceType.forecasted,
)
return consumption_list.to_list()
@refetch_frequency(timedelta(days=1))
def fetch_production(
zone_key: ZoneKey = ZONE_KEY,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict]:
"""Uses PJM API to get generation by fuel.
We assume that storage is battery storage (see https://learn.pjm.com/energy-innovations/energy-storage)
"""
target_datetime = (
datetime.now(timezone.utc).replace(hour=0, minute=0, second=0, microsecond=0)
if target_datetime is None
else target_datetime.astimezone(timezone.utc)
)
session = session or Session()
params = {
"startRow": 1,
"rowCount": 500,
"fields": "datetime_beginning_utc,fuel_type,mw",
"datetime_beginning_utc": target_datetime.strftime("%Y-%m-%dT%H:00:00.0000000"),
}
resp_data = _fetch_api_data(kind="gen_by_fuel", params=params, session=session)
items = resp_data.get("items", [])
if items == []:
raise ParserException(
parser=PARSER,
message=f"{target_datetime}: Production data is not available in the API",
zone_key=zone_key,
)
production_breakdown_list = ProductionBreakdownList(logger)
for key, group in groupby(items, itemgetter("datetime_beginning_utc")):
dt = datetime.fromisoformat(key).replace(tzinfo=timezone.utc)
production = ProductionMix()
storage = StorageMix()
for data in group:
mode = FUEL_MAPPING[data["fuel_type"]]
value = data["mw"]
if mode == "battery":
storage.add_value(mode, -value)
else:
production.add_value(mode, value)
production_breakdown_list.append(
zoneKey=zone_key,
datetime=dt,
production=production,
storage=storage,
source=SOURCE,
)
return production_breakdown_list.to_list()
def fetch_wind_solar_forecasts(
zone_key: ZoneKey = ZONE_KEY,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Uses PJM API to request the wind and solar forecast (in MW) for a given date in hourly intervals."""
session = session or Session()
# Datetime
target_datetime = (
datetime.now(timezone.utc).replace(hour=0, minute=0, second=0, microsecond=0)
if target_datetime is None
else target_datetime.astimezone(timezone.utc)
)
# Config for url
params = {
"startRow": 1,
"rowCount": 10000,
"datetime_beginning_utc": target_datetime.strftime("%Y-%m-%dT%H:00:00.0000000"),
}
resp_data_wind = _fetch_api_data(
kind="hourly_wind_power_forecast", params=params, session=session
)
items_wind = resp_data_wind.get("items", [])
resp_data_solar = _fetch_api_data(
kind="hourly_solar_power_forecast", params=params, session=session
)
items_solar = resp_data_solar.get("items", [])
# Combine wind and solar data and sort by datetime_beginning_utc
items = items_wind + items_solar
items.sort(key=itemgetter("datetime_beginning_utc", "evaluated_at_utc"))
production_list = ProductionBreakdownList(logger)
# Group by datetime_beginning_utc and get the last evaluated_at_utc entry for each group
for datetime_utc, group in groupby(items, key=itemgetter("datetime_beginning_utc")):
group_list = list(group)
wind_entries = [entry for entry in group_list if "wind_forecast_mwh" in entry]
latest_entry_wind = max(wind_entries, key=itemgetter("evaluated_at_utc"))
solar_entries = [entry for entry in group_list if "solar_forecast_mwh" in entry]
latest_entry_solar = max(solar_entries, key=itemgetter("evaluated_at_utc"))
production_mix = ProductionMix()
production_mix.add_value(
"solar",
latest_entry_solar["solar_forecast_mwh"],
correct_negative_with_zero=True,
)
production_mix.add_value(
"wind",
latest_entry_wind["wind_forecast_mwh"],
correct_negative_with_zero=True,
)
production_list.append(
zoneKey=zone_key,
datetime=datetime.fromisoformat(datetime_utc).replace(tzinfo=timezone.utc),
production=production_mix,
source=SOURCE,
sourceType=EventSourceType.forecasted,
)
return production_list.to_list()
def _get_interface_data(
interface: str, session: Session
) -> list[tuple[datetime, float]]:
"""Fetches 5min data for any PJM interface in the current day."""
# For some reason the US-MIDW-MISO data is on a chart at a different url
if interface == "MISO":
url = "https://www.pjm.com/Charts/MISO.aspx"
else:
url = f"http://www.pjm.com/Charts/InterfaceChartDM2.aspx?open={interface}"
response = session.get(url)
soup = BeautifulSoup(response.text, "html.parser")
scripts = soup.find(
"script",
{
"type": "text/javascript",
"src": "/assets/js/Highcharts/HighCharts/highcharts.js",
},
)
exchange_script = scripts.find_next_sibling("script")
# x-axis (time)
time_pattern = r"var timeArray = (\[(.*)\])"
time_array = re.search(time_pattern, str(exchange_script)).group(1)
time_vals = demjson.decode(time_array)
# y-axis [right] (actual & scheduled load)
load_pattern = r"var load = (\[(.*)\])"
load = re.search(load_pattern, str(exchange_script)).group(1)
load_actual = demjson.decode(load)[0]
converted_flows = []
today = datetime.combine(datetime.now(TIMEZONE), time(), tzinfo=TIMEZONE)
for t, flow in zip(time_vals, load_actual, strict=True):
# some tail values might be null
if flow is None:
continue
# make sure to use %I and not %H for %p to take effect
time_of_the_day = datetime.strptime(t, "%I:%M %p").replace(tzinfo=TIMEZONE)
dt = today.replace(hour=time_of_the_day.hour, minute=time_of_the_day.minute)
converted_flows.append((dt, float(flow)))
return converted_flows
def fetch_exchange(
zone_key1: ZoneKey,
zone_key2: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict]:
"""Requests the last known power exchange (in MW) between two zones."""
sorted_zone_keys = ZoneKey("->".join(sorted([zone_key1, zone_key2])))
if target_datetime is not None:
raise ParserException(
PARSER,
"This parser is not yet able to parse historical data",
sorted_zone_keys,
)
if not session:
session = Session()
# PJM reports exports as negative.
direction = -1 if sorted_zone_keys.startswith(ZONE_KEY) else 1
neighbour = zone_key2 if zone_key1 == ZONE_KEY else zone_key1
interfaces = ZONE_TO_PJM_INTERFACES[neighbour]
# get flow data from each interface with neighbour and merge
session = session or Session()
ungrouped_exchange_lists = []
for interface in interfaces:
exchange_list = ExchangeList(logger)
interface_data = _get_interface_data(interface, session=session)
for dt, net_flow in interface_data:
exchange_list.append(
zoneKey=sorted_zone_keys,
datetime=dt,
source=SOURCE,
netFlow=direction * net_flow,
)
ungrouped_exchange_lists.append(exchange_list)
return ExchangeList.merge_exchanges(ungrouped_exchange_lists, logger).to_list()
def fetch_grid_alerts(
zone_key: ZoneKey = ZONE_KEY,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict]:
GRID_ALERTS_PATH = "ep/pages/dashboard.jsf"
GRID_ALERTS_SOURCE = "https://emergencyprocedures.pjm.com"
if target_datetime is not None:
raise ParserException(
PARSER,
"This parser is not yet able to parse historical data",
zone_key,
)
session = session or Session()
url = f"{US_PROXY}/{GRID_ALERTS_PATH}"
headers = {
"Accept-Encoding": "identity",
}
response: Response = session.get(
url=url,
params={
"host": GRID_ALERTS_SOURCE,
},
headers=headers,
)
if not response.ok:
raise ParserException(
PARSER,
f"Exception when fetching grid alerts error code: {response.status_code}: {response.text}",
zone_key,
)
soup = BeautifulSoup(response.text, "html.parser")
tbody = soup.find("tbody", {"id": "frmTable:tblPostings_data"})
if not tbody:
raise ParserException(
PARSER,
f"BeautifulSoup could not find the tbody element in the response from {GRID_ALERTS_SOURCE}/{GRID_ALERTS_PATH}, error code: {response.status_code}: {response.text}",
zone_key,
)
alerts = GridAlertList(logger)
for i, alert in enumerate(tbody.children):
alertType = extract_alert_type(alert, i)
message = extract_message(alert, i)
startTime, endTime = extract_start_and_end_time(alert, i)
locationRegion = alert.find(class_=re.compile(r"region-name")).text.strip()
alerts.append(
zoneKey=ZONE_KEY,
locationRegion=locationRegion,
source=SOURCE,
alertType=alertType,
message=message,
issuedTime=startTime,
startTime=startTime,
endTime=endTime,
)
return alerts.to_list()
def extract_alert_type(alert: BeautifulSoup, i: int) -> GridAlertType:
alertType = alert.find(
"span",
{"id": re.compile(f"frmTable:tblPostings:{i}:j_idt\\d+:txtPriority")},
).text.strip()
if alertType == "Action":
return GridAlertType.action
else:
return GridAlertType.informational
def extract_message(alert: BeautifulSoup, i: int) -> str:
messageBody = alert.find(
"span", {"id": f"frmTable:tblPostings:{i}:txtMessage"}
).text.strip()
topic = alert.find(
"span",
{"id": re.compile(f"frmTable:tblPostings:{i}:j_idt\\d+:txtMessageTypeName")},
).text.strip()
return f"{topic}\n{messageBody}"
def extract_start_and_end_time(
alert: BeautifulSoup, i: int
) -> tuple[datetime, datetime]:
startTime = alert.find(
"span", {"id": f"frmTable:tblPostings:{i}:txtEffectiveStartTime"}
).text.strip()
endTime = alert.find(
"span", {"id": f"frmTable:tblPostings:{i}:txtEffectiveEndTime"}
).text.strip()
startTime = datetime.strptime(startTime, "%m.%d.%Y %H:%M").replace(tzinfo=TIMEZONE)
if endTime != "":
endTime = datetime.strptime(endTime, "%m.%d.%Y %H:%M").replace(tzinfo=TIMEZONE)
else:
endTime = None
return startTime, endTime
if __name__ == "__main__":
print("fetch_consumption_forecast() ->")
print(fetch_consumption_forecast())
# print("fetch_production() ->")
# print(fetch_production())
"""
for neighbor in [
"US-CAR-DUK",
"US-CAR-CPLE",
"US-CAR-CPLW",
"US-MIDW-LGEE",
"US-MIDW-MISO",
"US-NY-NYIS",
"US-TEN-TVA",
]:
print(f"fetch_exchange(US-MIDA-PJM, {neighbor}) ->")
print(fetch_exchange(ZONE_KEY, ZoneKey(neighbor)))
"""
# print("fetch_wind_solar_forecasts() ->")
# print(fetch_wind_solar_forecasts())
================================================
FILE: electricitymap/contrib/parsers/US_PREPA.py
================================================
#!/usr/bin/env python3
"""
Real-time parser for Puerto Rico.
Fetches data from various pages embedded as an iframe at https://aeepr.com/en-us/Pages/Generaci%C3%B3n.aspx
The electricity authority is known in English as PREPA (Puerto Rico Electric Power Authority) and in Spanish as AEEPR (Autoridad de Energía Eléctrica Puerto Rico)
"""
import json
import re
from datetime import datetime
from logging import Logger, getLogger
from zoneinfo import ZoneInfo
from requests import Session
TIMEZONE = ZoneInfo("America/Puerto_Rico")
US_PROXY = "https://us-ca-proxy-jfnx5klx2a-uw.a.run.app"
HOST_PARAMETER = "?host=https://aeepr.com"
GENERATION_BREAKDOWN_URL = (
f"{US_PROXY}/es-pr/generacion/Documents/combustibles.aspx{HOST_PARAMETER}"
)
RENEWABLES_BREAKDOWN_URL = (
f"{US_PROXY}/es-pr/generacion/Documents/Unidades_renovables.aspx{HOST_PARAMETER}"
)
TIMESTAMP_URL = (
f"{US_PROXY}/es-pr/generacion/Documents/CostosCombustible.aspx{HOST_PARAMETER}"
)
def extract_data(html):
"""Extracts data from the source code of an HTML page with a FusionCharts chart"""
dataSource = re.search(r"dataSource: (\{.+\}\]\})\}\);", html).group(
1
) # Extract object with data
dataSource = re.sub(
r",\s*\}", "}", dataSource
) # ,} is valid JavaScript but not valid JSON
dataSource = json.loads(dataSource)
sourceData = dataSource[
"data"
] # The rest of the dataSource object contains unnecessary stuff like chart theme, label, axis names etc.
return sourceData
def convert_timestamp(
zone_key: str, timestamp_string: str, logger: Logger = getLogger(__name__)
):
"""Converts timestamp fetched from website into timezone-aware datetime object.
Arguments:
----------
timestamp_string: timestamp in the format 06/01/2020 08:40:00 AM
"""
timestamp_string = re.sub(
r"\s+", " ", timestamp_string
) # Replace double spaces with one
timestamp = datetime.strptime(timestamp_string, "%m/%d/%Y %I:%M:%S %p").replace(
tzinfo=TIMEZONE
)
logger.debug(f"PARSED TIMESTAMP {timestamp}", extra={"key": zone_key})
return timestamp
def fetch_production(
zone_key: str = "US-PR",
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> dict:
"""Requests the last known production mix (in MW) of a given region."""
global renewable_output
if target_datetime is not None:
raise NotImplementedError(
"The datasource currently implemented is only real time"
)
r = session or Session()
data = { # To be returned as response data
"zoneKey": zone_key,
#'datetime': '2017-01-01T00:00:00Z',
"production": {
"biomass": 0.0,
"coal": 0.0,
"gas": 0.0,
"hydro": 0.0,
"nuclear": 0.0,
"oil": 0.0,
"solar": 0.0,
"wind": 0.0,
"geothermal": 0.0,
"unknown": 0.0,
},
# 'storage': {
# 'hydro': -10.0,
# },
"source": "aeepr.com",
}
renewable_output = 0.0 # Temporarily stored here. We'll subtract solar, wind and biomass (landfill gas) from it and assume the remainder, if any, is hydro
# Step 1: fetch production by generation type
# Note: seems to be rounded down (to an integer)
# Total at the top of the page fetched in step 3 isn't rounded down, but seems to be lagging behind sometimes.
# Difference is only minor, so for now we will IGNORE that total (instead of trying to parse the total and addding the difference to "unknown")
res = r.get(GENERATION_BREAKDOWN_URL)
assert res.status_code == 200, (
"Exception when fetching production for "
f"{zone_key}: error when calling url={GENERATION_BREAKDOWN_URL}"
)
sourceData = extract_data(res.text)
logger.debug(f"Raw generation breakdown: {sourceData}", extra={"key": zone_key})
for item in sourceData: # Item has a label with fuel type + generation in MW, and a value with a percentage
if item["label"] == " MW": # There's one empty item for some reason. Skip it.
continue
logger.debug(item["label"], extra={"key": zone_key})
parsedLabel = re.search(r"^(.+?)\s+(\d+)\s+MW$", item["label"])
category = parsedLabel.group(1) # E.g. GAS NATURAL
outputInMW = float(parsedLabel.group(2))
if category == "BUNKER C" or category == "DIESEL CC" or category == "DIESEL GT":
data["production"]["oil"] += outputInMW
elif category == "GAS NATURAL":
data["production"]["gas"] += outputInMW
elif category == "CARBON":
data["production"]["coal"] += outputInMW
elif category == "RENOVABLES":
renewable_output += outputInMW # Temporarily store aggregate renewable output. We'll subtract solar, wind and biomass (landfill gas) from it and assume the remainder, if any, is hydro
else:
logger.warn(
f'Unknown energy type "{category}" is present for Puerto Rico',
extra={"key": zone_key},
)
logger.info(
f'Category "{category}" produces {outputInMW}MW', extra={"key": zone_key}
)
# Step 2: fetch renewable production breakdown
# Data from this source isn't rounded. Assume renewable production not accounted for is hydro
res = r.get(RENEWABLES_BREAKDOWN_URL)
assert res.status_code == 200, (
"Exception when fetching renewable production for "
f"{zone_key}: error when calling url={RENEWABLES_BREAKDOWN_URL}"
)
sourceData = extract_data(res.text)
logger.debug(
f"Raw renewable generation breakdown: {sourceData}", extra={"key": zone_key}
)
original_renewable_output = renewable_output # If nothing gets subtracted renewable_output, there probably was no data on the renewables breakdown page
logger.debug(
f"Total (unspecified) renewable output from total generation breakdown: {original_renewable_output}MW",
extra={"key": zone_key},
)
for item in sourceData: # Somewhat different from above, the item's label has the generation type and the item's value has generation in MW
if item["label"] == " ": # There's one empty item for some reason. Skip it.
continue
if item["label"] == "Solar":
data["production"]["solar"] += float(item["value"])
elif item["label"] == "Eolica":
data["production"]["wind"] += float(item["value"])
elif item["label"] == "Landfill Gas":
data["production"]["biomass"] += float(item["value"])
else:
logger.warn(
f'Unknown renewable type "{item["label"]}" is present for Puerto Rico',
extra={"key": zone_key},
)
renewable_output -= float(
item["value"]
) # Subtract production accounted for from the renewable output total
logger.info(
f'Renewable "{item["label"]}" produces {item["value"]}MW',
extra={"key": zone_key},
)
logger.debug(
f"Renewable output yet to be accounted for: {renewable_output}MW",
extra={"key": zone_key},
)
logger.debug(
"Rounding remaining renewable output to 14 decimal places to get rid of floating point errors"
)
renewable_output = round(renewable_output, 14)
logger.info(
f"Remaining renewable output not accounted for: {renewable_output}MW",
extra={"key": zone_key},
)
# Assume renewable generation not accounted for is hydro - if we could fetch the other renewable generation data
if renewable_output >= 0.0:
if (
original_renewable_output == renewable_output
): # Nothing got subtracted for Solar, Wind or Landfill gas - so the page probably didn't contain any data. Renewable type=unknown
logger.warning(
f"Renewable generation breakdown page was empty, reporting unspecified renewable output ({renewable_output}MW) as 'unknown'",
extra={"key": zone_key},
)
data["production"]["unknown"] += renewable_output
else: # Otherwise, any remaining renewable output is probably hydro
logger.info(
f"Assuming remaining renewable output of {renewable_output}MW is hydro",
extra={"key": zone_key},
)
data["production"]["hydro"] += renewable_output
else:
logger.warn(
f"Renewable generation breakdown page total is greater than total renewable output, a difference of {renewable_output}MW",
extra={"key": zone_key},
)
# Step 3: fetch the timestamp, which is at the bottom of a different iframe
# Note: there's a race condition here when requesting data very close to :10 and :40, which is when the data gets updated
# Sometimes it's some seconds later, so we grab the timestamp from here to know the exact moment
res = r.get(
TIMESTAMP_URL
) # TODO do we know for sure the timestamp on this page gets updated *every time* the generation breakdown gets updated?
assert res.status_code == 200, (
f"Exception when fetching timestamp for {zone_key}: error when calling url={TIMESTAMP_URL}"
)
raw_timestamp_match = re.search(
r"Ultima Actualizaci�n: ((?:0[1-9]|1[0-2])/(?:[0-2][0-9]|3[0-2])/2[01][0-9]{2} [0-2][0-9]:[0-5][0-9]:[0-5][0-9] [AP]M)",
res.text,
)
if raw_timestamp_match is None:
raise Exception(f"Could not find timestamp in {res.text}")
raw_timestamp = raw_timestamp_match.group(1)
logger.debug(f"RAW TIMESTAMP: {raw_timestamp}", extra={"key": zone_key})
data["datetime"] = convert_timestamp(zone_key, raw_timestamp)
assert data["production"]["oil"] > 0.0, (
f"{zone_key} is missing required generation type: oil"
)
return data
if __name__ == "__main__":
"""Main method, never used by the Electricity Map backend, but handy for testing."""
print("fetch_production() ->")
print(fetch_production())
# TODO add forecast parser
# print('fetch_generation_forecast() ->')
# print(fetch_generation_forecast())
================================================
FILE: electricitymap/contrib/parsers/US_SPP.py
================================================
#!usr/bin/env python3
"""Parser for the Southwest Power Pool area of the United States."""
import math
from datetime import datetime, timedelta, timezone
from io import StringIO
from logging import Logger, getLogger
from typing import Any
from zoneinfo import ZoneInfo
import pandas as pd
from dateutil import parser
from requests import Session
from electricitymap.contrib.lib.models.event_lists import (
ExchangeList,
LocationalMarginalPriceList,
ProductionBreakdownList,
TotalConsumptionList,
)
from electricitymap.contrib.lib.models.events import (
EventSourceType,
ProductionMix,
)
from electricitymap.contrib.parsers.lib.config import refetch_frequency
from electricitymap.contrib.parsers.lib.validation import validate_exchange
from electricitymap.contrib.types import ZoneKey
SOURCE = "spp.org"
US_PROXY = "https://us-ca-proxy-jfnx5klx2a-uw.a.run.app"
HOST_PARAMETER = "host=https://marketplace.spp.org"
HISTORIC_GENERATION_BASE_URL = f"{US_PROXY}/file-browser-api/download/generation-mix-historical?{HOST_PARAMETER}&path="
SPP_PORTAL = "host=https://portal.spp.org"
DAYAHEAD_PRICE_URL = (
f"{US_PROXY}/file-browser-api/download/da-lmp-by-location?{SPP_PORTAL}"
)
REALTIME_PRICE_URL = (
f"{US_PROXY}/file-browser-api/download/rtbm-lmp-by-location?{SPP_PORTAL}"
)
GENERATION_URL = f"{US_PROXY}/chart-api/gen-mix/asFile?{HOST_PARAMETER}"
EXCHANGE_URL = f"{US_PROXY}/chart-api/interchange-trend/asFile?{HOST_PARAMETER}"
HISTORICAL_EXCHANGE_URL = (
f"{US_PROXY}/file-browser-api/download/historical-tie-flow?{HOST_PARAMETER}&path="
)
MAPPING = {
"Wind": "wind",
"Nuclear": "nuclear",
"Hydro": "hydro",
"Solar": "solar",
"Natural Gas": "gas",
"Diesel Fuel Oil": "oil",
"Waste Disposal Services": "biomass",
"Coal": "coal",
"Other": "unknown",
"Waste Heat": "unknown",
}
TIE_MAPPING = {"US-MISO->US-SPP": ["AMRN", "DPC", "GRE", "MDU", "MEC", "NSP", "OTP"]}
EXCHANGE_MAPPING = {
"AECI": "US-MIDW-AECI",
"AMRN": "US-MIDW-MISO",
"BLKW": "US-NW-PNM",
"CLEC": "US-MIDW-MISO",
"EDDY": "US-SW-EPE",
"EES": "US-MIDW-MISO",
"ERCOTE": "US-TEX-ERCO",
"ERCOTN": "US-TEX-ERCO",
"LAMAR": "US-NW-PSCO",
"MEC": "US-MIDW-MISO",
"SCSE": "US-NW-WACM",
"SOUC": "US-SE-SOCO",
"SPA": "US-CENT-SPA",
"TVA": "US-TEN-TVA",
"RCEAST": "US-NW-WAUW",
"SPC": "CA-SK",
"MCWEST": "US-NW-WAUW",
"SGE": "US-NW-WACM",
"ALTW": "US-MIDW-MISO",
"DPC": "US-MIDW-MISO",
"GRE": "US-MIDW-MISO",
"MDU": "US-MIDW-MISO",
"NSP": "US-MIDW-MISO",
"OTP": "US-MIDW-MISO",
}
# NOTE
# Data sources return timestamps in GMT.
# Energy storage situation unclear as of 16/03/2018, likely to change quickly in future.
def get_data(url, session: Session | None = None):
"""Returns a pandas dataframe."""
s = session or Session()
req = s.get(url)
if req.text == "":
return pd.DataFrame()
df = pd.read_csv(StringIO(req.text))
return df
def data_processor(df, logger: Logger) -> list[tuple[datetime, ProductionMix]]:
"""
Takes a dataframe and logging instance as input.
Checks for new generation types and logs a warning if any are found.
Parses the dataframe row by row removing unneeded keys.
:return: list of tuples containing a datetime object and production dictionary.
"""
# Remove leading whitespace in column headers.
df.columns = df.columns.str.strip()
df = df.rename(
columns={"Gas Self": "Natural Gas Self"}
) # Fix naming error which otherwise misclassifies Gas Self as Unknown
# Some historical csvs split the production into 'Market' and 'Self',
# So first we need to combine those.
for col in df.columns:
if "Market" in col:
combined_col = col.replace("Market", "").strip()
self_col = col.replace("Market", "Self")
if self_col in df.columns:
df[combined_col] = df[col] + df[self_col]
df.drop(self_col, inplace=True, axis=1)
else:
logger.warning(
f'Corresponding column "{self_col}" to "{col}" not found in file',
extra={"key": "US-SPP"},
)
df[combined_col] = df[col]
df.drop(col, inplace=True, axis=1)
keys_to_remove = {"GMT MKT Interval", "Average Actual Load", "Load"}
# Check for new generation columns.
known_keys = MAPPING.keys() | keys_to_remove
column_headers = set(df.columns)
unknown_keys = column_headers - known_keys
for heading in unknown_keys:
logger.warning(
f"New column '{heading}' present in US-SPP data source.",
extra={"key": "US-SPP"},
)
processed_data = []
for index in range(len(df)):
mix = ProductionMix()
production = df.iloc[index].to_dict()
dt_aware = production["GMT MKT Interval"].to_pydatetime()
for k in keys_to_remove | unknown_keys:
production.pop(k, None)
for k, v in production.items():
mix.add_value(MAPPING[k], float(v))
processed_data.append((dt_aware, mix))
return processed_data
@refetch_frequency(timedelta(days=1))
def fetch_production(
zone_key: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Requests the last known production mix (in MW) of a given zone."""
if target_datetime is not None:
# check if target_datetime is timezone naive
# https://docs.python.org/3/library/datetime.html#determining-if-an-object-is-aware-or-naive
if (
target_datetime.tzinfo is None # order is important here
or target_datetime.tzinfo.utcoffset(target_datetime) is None
):
target_datetime = target_datetime.replace(tzinfo=timezone.utc)
current_year = datetime.now().year
target_year = target_datetime.year
# Check if datetime is too far in the past
if target_year < 2011:
raise NotImplementedError("Data before 2011 not available from this source")
# Check if datetime in current year, or past year
if target_year == current_year:
filename = "GenMixYTD.csv"
else:
filename = f"GenMix_{target_year}.csv"
historic_generation_url = HISTORIC_GENERATION_BASE_URL + filename
raw_data = get_data(historic_generation_url, session=session)
# In some cases the timeseries column is named differently, so we standardize it
raw_data.rename(columns={"GMTTime": "GMT MKT Interval"}, inplace=True)
raw_data["GMT MKT Interval"] = pd.to_datetime(
raw_data["GMT MKT Interval"], utc=True
)
end = target_datetime
start = target_datetime - timedelta(days=1)
start = max(start, raw_data["GMT MKT Interval"].min())
raw_data = raw_data[
(raw_data["GMT MKT Interval"] >= start)
& (raw_data["GMT MKT Interval"] <= end)
]
else:
raw_data = get_data(GENERATION_URL, session=session)
raw_data["GMT MKT Interval"] = pd.to_datetime(raw_data["GMT MKT Interval"])
processed_data = data_processor(raw_data, logger)
production_list = ProductionBreakdownList(logger)
for dt, mix in processed_data:
production_list.append(
zoneKey=zone_key,
datetime=dt.replace(tzinfo=timezone.utc),
production=mix,
source=SOURCE,
)
return production_list.to_list()
def _NaN_safe_get(forecast: dict, key: str) -> float:
try:
return float(forecast[key])
except ValueError:
return math.nan
def fetch_load_forecast(
zone_key: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Requests the load forecast (in MW) of a given zone."""
if not target_datetime:
target_datetime = datetime.now()
if isinstance(target_datetime, datetime):
dt = target_datetime
else:
dt = parser.parse(target_datetime)
LOAD_URL = f"{US_PROXY}/chart-api/load-forecast/asFile?{HOST_PARAMETER}"
raw_data = get_data(LOAD_URL)
consumption_list = TotalConsumptionList(logger)
for index in range(len(raw_data)):
forecast = raw_data.loc[index].to_dict()
dt = parser.parse(forecast["GMTIntervalEnd"]).replace(tzinfo=timezone.utc)
load = _NaN_safe_get(forecast, "STLF") # short term load forecast
if math.isnan(load):
load = _NaN_safe_get(forecast, "MTLF") # medium term load forecast
if math.isnan(load):
# STLF is reported every 5 minutes while MTLF is reported once every hour so we know load is None at times like 12.05, 12.10, etc
logger.warning(f"fetch_load_forecast: {dt} has no forecasted load")
# Drop there data points to prevent errors in .append
continue
consumption_list.append(
datetime=dt,
consumption=load,
zoneKey=zone_key,
source=SOURCE,
sourceType=EventSourceType.forecasted,
)
return consumption_list.to_list()
@refetch_frequency(timedelta(days=1))
def fetch_wind_solar_forecasts(
zone_key: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""Requests the load forecast (in MW) of a given zone."""
if not target_datetime:
target_datetime = datetime.now()
if isinstance(target_datetime, datetime):
dt = target_datetime
else:
dt = parser.parse(target_datetime)
FORECAST_URL_PATH = f"%2F{dt.year}%2F{dt.month:02d}%2F{dt.day:02d}%2FOP-MTRF-{dt.year}{dt.month:02d}{dt.day:02d}0000.csv"
FORECAST_URL = (
f"{US_PROXY}/file-browser-api/download/midterm-resource-forecast?{HOST_PARAMETER}&path="
+ FORECAST_URL_PATH
)
try:
raw_data = get_data(FORECAST_URL)
except pd.errors.ParserError:
logger.error(
f"fetch_wind_solar_forecasts: {dt} has no forecast for url: {FORECAST_URL}"
)
return []
# sometimes there is a leading whitespace in column names
raw_data.columns = raw_data.columns.str.lstrip()
production_list = ProductionBreakdownList(logger)
for index in range(len(raw_data)):
forecast = raw_data.loc[index].to_dict()
dt = parser.parse(forecast["GMTIntervalEnd"]).replace(tzinfo=timezone.utc)
# Get short term forecast if available, else medium term
solar = _NaN_safe_get(forecast, "Solar Forecast MW")
wind = _NaN_safe_get(forecast, "Wind Forecast MW")
if math.isnan(solar) and math.isnan(wind):
logger.info(
f"fetch_wind_solar_forecasts: {dt} has no solar nor wind forecasted production"
)
continue
mix = ProductionMix(solar=solar, wind=wind)
production_list.append(
datetime=dt,
production=mix,
zoneKey=zone_key,
source=SOURCE,
sourceType=EventSourceType.forecasted,
)
return production_list.to_list()
def fetch_live_exchange(
zone_key1: ZoneKey,
zone_key2: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
data = get_data(EXCHANGE_URL, session)
data = data.dropna(axis=0)
data["GMTTime"] = pd.to_datetime(data["GMTTime"], utc=True)
data = data.loc[data["GMTTime"] <= target_datetime]
data = data.set_index("GMTTime")
exchanges = format_exchange_data(
data=data, zone_key1=zone_key1, zone_key2=zone_key2, logger=logger
)
return exchanges
def fetch_historical_exchange(
zone_key1: ZoneKey,
zone_key2: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
if target_datetime is None:
return []
filename = target_datetime.strftime("TieFlows_%b%Y.csv")
file_url = f"{US_PROXY}/file-browser-api/download/historical-tie-flow?{HOST_PARAMETER}&path={filename}"
data = get_data(file_url, session)
data["GMTTIME"] = pd.to_datetime(data["GMTTIME"], utc=True)
data = data.loc[
(data["GMTTIME"] >= target_datetime - timedelta(days=1))
& (data["GMTTIME"] <= target_datetime)
]
data = data.set_index("GMTTIME")
exchanges = format_exchange_data(
data=data, zone_key1=zone_key1, zone_key2=zone_key2, logger=logger
)
return exchanges
def format_exchange_data(
data: pd.DataFrame,
zone_key1: ZoneKey,
zone_key2: ZoneKey,
logger: Logger = getLogger(__name__),
) -> list:
"""format exchanges data into list of data points"""
sorted_zone_keys = ZoneKey("->".join(sorted([zone_key1, zone_key2])))
data = data[list(EXCHANGE_MAPPING)]
data = data.melt(var_name="zone_key2", value_name="exchange", ignore_index=False)
data.zone_key2 = data.zone_key2.map(EXCHANGE_MAPPING)
data_filtered = data.loc[data["zone_key2"] == zone_key2]
data_filtered = data_filtered.groupby([data_filtered.index])["exchange"].sum()
exchange_list = ExchangeList(logger)
for dt in data_filtered.index:
data_dt = data_filtered.loc[data_filtered.index == dt]
exchange_list.append(
zoneKey=sorted_zone_keys,
netFlow=round(data_dt.values[0], 4),
datetime=dt.to_pydatetime(),
source=SOURCE,
)
return [x for x in exchange_list.to_list() if validate_exchange(x, logger)]
@refetch_frequency(timedelta(days=1))
def fetch_exchange(
zone_key1: ZoneKey,
zone_key2: ZoneKey,
session: Session = Session(),
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
now = datetime.now(tz=timezone.utc)
if target_datetime is None or target_datetime > now.date():
target_datetime = now
exchanges = fetch_live_exchange(
zone_key1, zone_key2, session, target_datetime, logger
)
elif target_datetime < datetime(2014, 3, 1, tzinfo=timezone.utc):
raise NotImplementedError(
"Exchange data is not available from this source before 03/2014"
)
else:
exchanges = fetch_historical_exchange(
zone_key1, zone_key2, session, target_datetime, logger
)
return exchanges
@refetch_frequency(timedelta(minutes=30))
def fetch_realtime_locational_marginal_price(
zone_key: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
if target_datetime is None:
target_datetime = datetime.now(tz=timezone.utc)
if target_datetime.tzinfo is None:
target_datetime = target_datetime.replace(tzinfo=timezone.utc)
prices = LocationalMarginalPriceList(logger)
# Get data for target datetime and previous 30 minutes in 5 min intervals
for minutes in range(0, 35, 5):
check_datetime = target_datetime - timedelta(minutes=minutes)
url = get_realtime_url(check_datetime)
raw_data = get_data(url, session)
if raw_data.empty:
logger.warning(f"Empty response for {check_datetime}")
continue
grouped = raw_data.groupby(["Pnode", "GMTIntervalEnd"]).first()
for (node, interval_end), row in grouped.iterrows():
prices.append(
zoneKey=zone_key,
datetime=datetime.strptime(interval_end, "%m/%d/%Y %H:%M:%S").replace(
tzinfo=timezone.utc
),
price=row["LMP"],
currency="USD",
node=node,
source=SOURCE,
)
price_list = prices.to_list()
return price_list
@refetch_frequency(timedelta(days=1))
def fetch_dayahead_locational_marginal_price(
zone_key: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list:
if target_datetime is None:
target_datetime = datetime.now(tz=timezone.utc)
url = get_dayahead_url(target_datetime)
raw_data = get_data(url, session)
if raw_data.empty:
logger.warning(f"Empty response for {target_datetime}")
return []
# filter by column "Settlement Location" so it only includes SPPNORTH_HUB
grouped = raw_data.groupby(["Pnode", "GMTIntervalEnd"]).first()
prices = LocationalMarginalPriceList(logger)
for (node, interval_end), row in grouped.iterrows():
prices.append(
zoneKey=zone_key,
datetime=datetime.strptime(interval_end, "%m/%d/%Y %H:%M:%S").replace(
tzinfo=timezone.utc
),
price=row["LMP"],
currency="USD",
node=node,
source=SOURCE,
)
price_list = prices.to_list()
return price_list
def get_closest_5_minutes_datetime(target_datetime: datetime) -> datetime:
cdt_datetime = target_datetime.astimezone(tz=ZoneInfo("America/Chicago"))
minute = (cdt_datetime.minute // 5) * 5
rounded_cdt = cdt_datetime.replace(minute=minute, second=0, microsecond=0)
return rounded_cdt
def get_realtime_url(target_datetime: datetime) -> str:
closest_5_minutes_datetime = get_closest_5_minutes_datetime(target_datetime)
year = closest_5_minutes_datetime.strftime("%Y")
month = closest_5_minutes_datetime.strftime("%m")
day = closest_5_minutes_datetime.strftime("%d")
hour = closest_5_minutes_datetime.strftime("%H")
minute = closest_5_minutes_datetime.strftime("%M")
# SPP puts the first 5 minutes of the day (00:00) in the previous day's directory
if minute == "00" and hour == "00":
one_day_before = closest_5_minutes_datetime - timedelta(days=1)
one_day_before_days = one_day_before.strftime("%d")
one_day_before_month = one_day_before.strftime("%m")
one_day_before_year = one_day_before.strftime("%Y")
return f"{REALTIME_PRICE_URL}&path=/{one_day_before_year}/{one_day_before_month}/By_Interval/{one_day_before_days}/RTBM-LMP-SL-{year}{month}{day}{hour}{minute}.csv"
return f"{REALTIME_PRICE_URL}&path=/{year}/{month}/By_Interval/{day}/RTBM-LMP-SL-{year}{month}{day}{hour}{minute}.csv"
def get_dayahead_url(target_datetime: datetime) -> str:
year = target_datetime.strftime("%Y")
month = target_datetime.strftime("%m")
day = target_datetime.strftime("%d")
return f"{DAYAHEAD_PRICE_URL}&path=/{year}/{month}/By_Day/DA-LMP-SL-{year}{month}{day}0100.csv"
if __name__ == "__main__":
print("fetch_production() -> ")
print(fetch_production(zone_key=ZoneKey("US-CENT-SWPP")))
print("fetch_exchange() -> ")
print(fetch_exchange("US-CENT-SWPP", "US-MIDW-MISO"))
print("fetch_load_forecast() -> ")
print(
fetch_load_forecast(
zone_key=ZoneKey("US-CENT-SWPP"), target_datetime="20190125"
)
)
print("fetch_wind_solar_forecasts() -> ")
print(
fetch_wind_solar_forecasts(
zone_key=ZoneKey("US-CENT-SWPP"), target_datetime="20221118"
)
)
================================================
FILE: electricitymap/contrib/parsers/UY.py
================================================
#!/usr/bin/python3
import io
from datetime import datetime, timedelta
from logging import Logger, getLogger
from zoneinfo import ZoneInfo
import pandas as pd
# BeautifulSoup is used to parse HTML to get information
from bs4 import BeautifulSoup
from requests import Session
from electricitymap.contrib.config.constants import PRODUCTION_MODES
from electricitymap.contrib.lib.models.event_lists import (
ExchangeList,
ProductionBreakdownList,
TotalConsumptionList,
)
from electricitymap.contrib.lib.models.events import ProductionMix
from electricitymap.contrib.parsers.lib.config import refetch_frequency
from electricitymap.contrib.parsers.lib.exceptions import ParserException
from electricitymap.contrib.types import ZoneKey
UY_TZ = ZoneInfo("America/Montevideo")
UY_SOURCE = "pronos.adme.com.uy"
ADME_URL = "https://pronos.adme.com.uy/gpf.php?fecha_ini="
PRODUCTION_MODE_MAPPING = {
"Salto Grande": "hydro",
"Bonete": "hydro",
"Baygorria": "hydro",
"Palmar": "hydro",
"Eólica": "wind",
"Solar": "solar",
"Térmica": "oil",
"Biomasa": "biomass",
}
EXCHANGES_MAPPING = {
"Exp_Intercon_ARG": "AR->UY",
"Exp_Intercon_BR_MELO": "BR-S->UY",
"Exp_Intercon_BR_RIVERA": "BR-S->UY",
"Imp_Intercon_AG_Imp": "AR->UY",
"Imp_Intercon_BR_MELO": "BR-S->UY",
"Imp_Intercon_BR_RIVERA": "BR-S->UY",
}
def get_adme_url(target_datetime: datetime, session: Session) -> str:
""""""
next_day = target_datetime + timedelta(days=1)
date_format = (
f"{target_datetime.day}%2F{target_datetime.month}%2F{target_datetime.year}"
)
next_day_format = f"{next_day.day}%2F{next_day.month}%2F{next_day.year}"
link = f"{ADME_URL}{date_format}&fecha_fin={next_day_format}&send=MOSTRAR"
r = session.get(url=link)
if not r.ok:
raise ParserException(
parser="UY.py",
message="Impossible to fetch data url from ADME",
)
soup = BeautifulSoup(r.content, "html.parser")
href_tags = soup.find_all("a", href=True)
data_url: str = ""
for tag in href_tags:
if (
tag.button is not None
and tag.button.string == "Archivo Scada Detalle 10minutal"
):
data_url = "https://pronos.adme.com.uy" + tag.get("href")
if not data_url:
raise ParserException(
parser="UY.py",
message="Impossible to fetch data url from ADME",
)
return data_url
def fetch_data(
session: Session,
target_datetime: datetime,
sheet_name: str,
logger: Logger = getLogger(__name__),
) -> pd.DataFrame:
""" """
assert target_datetime is not None
assert session is not None
assert sheet_name != "" or sheet_name is not None
adme_url = get_adme_url(target_datetime=target_datetime, session=session)
r = session.get(url=adme_url)
if r.status_code == 200:
df_data = pd.read_excel(
io.BytesIO(r.content), engine="odf", header=2, sheet_name=sheet_name
)
df_data.columns = df_data.columns.str.strip()
df_data = df_data.rename(columns={"Fecha": "datetime"})
df_data = df_data.set_index("datetime")
return df_data
else:
raise ParserException(
parser="UY.py",
message="no data available for target_datetime",
)
def fix_solar_production(dt: datetime, value: float) -> int:
"""sets solar production to 0 during the night as there is only solar PV in UY"""
if (dt.hour <= 5 or dt.hour >= 20) and value != 0:
return 0
else:
return round(value, 3)
@refetch_frequency(timedelta(days=1))
def fetch_production(
zone_key: str = "UY",
session: Session = Session(),
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list:
"""collects production data from ADME and format all data points for target_datetime"""
if target_datetime is None:
target_datetime = datetime.now(tz=UY_TZ)
session = session or Session()
production_list = ProductionBreakdownList(logger)
data = fetch_data(
session=session,
target_datetime=target_datetime,
sheet_name="GPF",
logger=logger,
)
data = data.rename(columns=PRODUCTION_MODE_MAPPING)
data = data.groupby(data.columns, axis=1).sum(
numeric_only=True,
)
production = data[[col for col in data.columns if col in PRODUCTION_MODES]]
for dt, row in production.iterrows():
production_mix = ProductionMix()
if not row.eq(0).all() and not row.isna().all():
for mode, value in row.items():
if mode == "solar":
value = fix_solar_production(dt, value)
production_mix.add_value(
mode,
round(float(value), 3),
correct_negative_with_zero=True,
)
production_list.append(
zoneKey=ZoneKey(zone_key),
datetime=dt.to_pydatetime().replace(tzinfo=UY_TZ),
source=UY_SOURCE,
production=production_mix,
)
return production_list.to_list()
@refetch_frequency(timedelta(days=1))
def fetch_consumption(
zone_key: str = "UY",
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list:
"""collects consumption data from ADME and format all data points for target_datetime"""
if target_datetime is None:
target_datetime = datetime.now(tz=UY_TZ)
session = session or Session()
consumption_list = TotalConsumptionList(logger)
data = fetch_data(
session=session,
target_datetime=target_datetime,
sheet_name="GPF",
logger=logger,
)
data = data.rename(columns={"Demanda": "consumption"})
consumption = data[["consumption"]]
for dt, row in consumption.iterrows():
consumption_list.append(
zoneKey=ZoneKey(zone_key),
datetime=dt.to_pydatetime().replace(tzinfo=UY_TZ),
consumption=row["consumption"],
source=UY_SOURCE,
)
return consumption_list.to_list()
@refetch_frequency(timedelta(days=1))
def fetch_exchange(
zone_key1: str,
zone_key2: str,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list:
"""collects exchanges data from ADME and format all data points for target_datetime"""
if target_datetime is None:
target_datetime = datetime.now(tz=UY_TZ)
session = session or Session()
exchange_list = ExchangeList(logger)
data = fetch_data(
session=session,
target_datetime=target_datetime,
sheet_name="Intercambios.",
logger=logger,
)
data.loc[:, data.columns.str.contains("Exp_")] = -data.loc[
:, data.columns.str.contains("Exp_")
]
data = data.rename(columns=EXCHANGES_MAPPING)
data = data.groupby(data.columns, axis=1).sum(
numeric_only=True,
)
sorted_zone_keys = "->".join(sorted([zone_key1, zone_key2]))
exchange = data[[sorted_zone_keys]]
for dt, row in exchange.iterrows():
exchange_list.append(
zoneKey=ZoneKey(sorted_zone_keys),
datetime=dt.to_pydatetime().replace(tzinfo=UY_TZ),
netFlow=row[sorted_zone_keys],
source=UY_SOURCE,
)
return exchange_list.to_list()
if __name__ == "__main__":
print("fetch_production() ->")
print(fetch_production())
# print("fetch_exchange(UY, BR) ->")
# print(fetch_exchange("UY", "BR"))
================================================
FILE: electricitymap/contrib/parsers/VN.py
================================================
#!/usr/bin/env python3
import json
from datetime import datetime, timedelta
from logging import Logger, getLogger
from zoneinfo import ZoneInfo
from requests import Session
from electricitymap.contrib.config import ZoneKey
from electricitymap.contrib.lib.models.event_lists import (
PriceList,
TotalConsumptionList,
)
from electricitymap.contrib.parsers.lib.exceptions import ParserException
## Vietnamese National Load Dispatch Center https://www.nldc.evn.vn/
# Access via day, can also parse historical data
tz = ZoneInfo("Asia/Ho_Chi_Minh")
LIVE_DATA = {
"consumption": "https://www.nldc.evn.vn/api/services/app/Pages/GetChartPhuTaiVM",
"price": "https://www.nldc.evn.vn/api/services/app/Pages/GetChartGiaBienVM",
}
HISTORICAL_DATA = "https://www.nldc.evn.vn/api/services/app/Dashboard/GetBieuDoTuongQuanPT" # + dd/mm/yyyy
ZONE_CODE = {
ZoneKey("VN"): "HT",
ZoneKey("VN-N"): "MB",
ZoneKey("VN-C"): "MT",
ZoneKey("VN-S"): "MN",
}
def fetch_live_data(data_type: str, session: Session):
res = session.get(LIVE_DATA[data_type])
if not res.ok:
raise ParserException(
parser="VN.py", message=f"Request failed: {res.status_code}"
)
return json.loads(res.text)["result"]["data"]
def fetch_historical_data(
target_datetime: datetime,
session: Session,
):
res = session.get(
f"{HISTORICAL_DATA}?day={(target_datetime.astimezone(tz)).strftime('%d/%m/%Y')}"
)
if not res.ok:
raise ParserException(
parser="VN.py", message=f"Request failed: {res.status_code}"
)
return json.loads(res.text)["result"]["data"]["phuTai"]
def fetch_live_price(
zone_key: ZoneKey,
session: Session,
logger: Logger = getLogger(__name__),
):
data_list = fetch_live_data("price", session)["giaBiens"]
result_list = PriceList(logger)
for data in data_list:
result_list.append(
datetime=datetime.fromisoformat(data["thoiGian"]).replace(tzinfo=tz)
- timedelta(minutes=30),
price=data[f"giaBien{ZONE_CODE[zone_key]}"],
currency="VND",
zoneKey=zone_key,
source="nldc.evn.vn",
)
return result_list.to_list()
def fetch_live_consumption(
zone_key: ZoneKey,
session: Session,
logger: Logger = getLogger(__name__),
):
data_list = fetch_live_data("consumption", session)["phuTais"]
result_list = TotalConsumptionList(logger)
for data in data_list:
result_list.append(
datetime=datetime.fromisoformat(data["thoiGian"]).replace(tzinfo=tz)
- timedelta(minutes=30),
consumption=data[f"congSuat{ZONE_CODE[zone_key]}"],
zoneKey=zone_key,
source="nldc.evn.vn",
)
return result_list.to_list()
def fetch_historical_price(
target_datetime: datetime,
session: Session,
logger: Logger = getLogger(__name__),
):
data_list = fetch_historical_data(session=session, target_datetime=target_datetime)
result_list = PriceList(logger)
for data in data_list:
result_list.append(
datetime=datetime.fromisoformat(data["thoiGian"]).replace(tzinfo=tz)
- timedelta(minutes=30),
currency="VND",
price=data["giaBan"],
zoneKey=ZoneKey("VN"),
source="nldc.evn.vn",
)
return result_list.to_list()
def fetch_historical_consumption(
target_datetime: datetime,
session: Session,
logger: Logger = getLogger(__name__),
):
data_list = fetch_historical_data(session=session, target_datetime=target_datetime)
result_list = TotalConsumptionList(logger)
for data in data_list:
result_list.append(
datetime=datetime.fromisoformat(data["thoiGian"]).replace(tzinfo=tz)
- timedelta(
minutes=30
), # Substract 30 minutes to convert backwards looking timestamp to forward looking
consumption=data["congSuat"],
zoneKey=ZoneKey("VN"),
source="nldc.evn.vn",
)
return result_list.to_list()
def fetch_price(
zone_key: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
):
session = session or Session()
if target_datetime is None:
live_consumption = fetch_live_price(zone_key, session, logger)
if len(live_consumption) > 0:
return live_consumption
else:
if zone_key is ZoneKey("VN"):
return fetch_historical_price(
datetime.now() - timedelta(days=1), session, logger
)
else:
raise ParserException(
"VN.py",
"No real time data found",
zone_key,
)
elif target_datetime is not None and zone_key is ZoneKey("VN"):
return fetch_historical_price(target_datetime, session, logger)
else:
raise NotImplementedError(
"This parser is not yet able to parse past dates for this zone"
)
def fetch_consumption(
zone_key: ZoneKey,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
):
session = session or Session()
if target_datetime is None:
live_consumption = fetch_live_consumption(zone_key, session, logger)
# Live data is empty at 00:00, resort to historical from previous day
if len(live_consumption) > 0:
return live_consumption
else:
if zone_key is ZoneKey("VN"):
return fetch_historical_consumption(
datetime.now() - timedelta(days=1), session, logger
)
else:
raise ParserException(
"VN.py",
"No real time data found",
zone_key,
)
elif target_datetime is not None and zone_key is ZoneKey("VN"):
return fetch_historical_consumption(target_datetime, session, logger)
else:
raise NotImplementedError(
"This parser is not yet able to parse past dates for this zone"
)
if __name__ == "__main__":
print("fetch_consumption() ->")
print(fetch_consumption(ZoneKey("VN")))
print("fetch_price() ->")
print(fetch_price(ZoneKey("VN")))
================================================
FILE: electricitymap/contrib/parsers/YUKONENERGY.py
================================================
#!/usr/bin/env python3
import json
import re
from datetime import datetime, timedelta
from logging import Logger, getLogger
from typing import Any
from zoneinfo import ZoneInfo
from bs4 import BeautifulSoup
from requests import Session
from electricitymap.contrib.lib.models.event_lists import ProductionBreakdownList
from electricitymap.contrib.lib.models.events import ProductionMix
from electricitymap.contrib.parsers.lib.exceptions import ParserException
from electricitymap.contrib.types import ZoneKey
SOURCE = "yukonenergy.ca"
TIMEZONE = ZoneInfo("America/Whitehorse")
URL = "http://www.yukonenergy.ca/consumption/chart_current.php?chart=current&width=420"
ZONE_KEY = ZoneKey("CA-YT")
FUEL_MAPPING = {
"thermal": "unknown",
"hydro": "hydro",
"wind": "wind",
"solar": "solar",
}
def fetch_production(
zone_key: ZoneKey = ZONE_KEY,
session: Session | None = None,
target_datetime: datetime | None = None,
logger: Logger = getLogger(__name__),
) -> list[dict[str, Any]]:
"""
We are using Yukon Energy's data from
http://www.yukonenergy.ca/energy-in-yukon/electricity-101/current-energy-consumption
Generation in Yukon is done with solar, wind, hydro, diesel oil, and LNG.
There are two companies, Yukon Energy and ATCO aka Yukon Electric aka YECL.
Yukon Energy does most of the generation and feeds into Yukon's grid. ATCO
does operations, billing, and generation in some of the off-grid
communities.
See schema of the grid at http://www.atcoelectricyukon.com/About-Us/
Thermal is a mix of diesel oil and LNG, therefore thermal is set to unknown.
https://yukonenergy.ca/energy-in-yukon/projects-facilities/
"""
if zone_key != ZONE_KEY:
raise ParserException(
"YUKONENERGY.py", "Cannot parse zone '{zone_key}'", zone_key
)
if target_datetime:
raise ParserException(
"YUKONENERGY.py", "Unable to fetch historical data", zone_key
)
session = session or Session()
response = session.get(URL)
html = response.text
soup = BeautifulSoup(html, "html.parser")
# Extract JavaScript data
match_past_day = re.search(
r"var rows_chart_past_day = parseDates\((\[\[.*?\]\])\);", html, re.DOTALL
)
match_current = re.search(
r"var rows_chart_current = parseDates\((\[\[.*?\]\])\);", html, re.DOTALL
)
if not match_past_day or not match_current:
raise ParserException("YUKONENERGY.py", "Cannot find data", zone_key)
past_day_data = json.loads(match_past_day.group(1))
current_data = json.loads(match_current.group(1))
# Search html for when the data was updatead
pane = soup.find("div", class_="consumption-pane total")
updated_text = pane.find("p").get_text(strip=True) if pane else None
timestamp = None
if updated_text:
match = re.search(r"Updated (\d+) minute", updated_text)
if match:
minutes_ago = int(match.group(1))
timestamp = datetime.now(TIMEZONE) - timedelta(minutes=minutes_ago)
else:
timestamp = datetime.now(TIMEZONE)
else:
timestamp = datetime.now(TIMEZONE)
timestamp = timestamp.replace(second=0, microsecond=0).isoformat(timespec="seconds")
if timestamp != past_day_data[-1][0]:
new_row = [timestamp] + [source[1] for source in current_data[:-1]]
past_day_data.append(new_row)
# Remove capacity
production_mode_order = [item[0].lower() for item in current_data][:-1]
all_production_breakdowns: list[ProductionBreakdownList] = []
for item in past_day_data:
time, *datetime_data = item
production_mode_list = ProductionBreakdownList(logger)
productionMix = ProductionMix()
for i, data in enumerate(datetime_data):
production_mode = FUEL_MAPPING.get(production_mode_order[i])
productionMix.add_value(production_mode, round(float(data), 3))
production_mode_list.append(
zoneKey=zone_key,
datetime=datetime.fromisoformat(time).replace(tzinfo=TIMEZONE),
source=SOURCE,
production=productionMix,
)
all_production_breakdowns.append(production_mode_list)
production_events = ProductionBreakdownList.merge_production_breakdowns(
all_production_breakdowns, logger
)
production_events = production_events.to_list()
return production_events
if __name__ == "__main__":
# Never used by the Electricity Map backend, but handy for testing.
print("fetch_production() ->")
print(fetch_production())
================================================
FILE: electricitymap/contrib/parsers/__init__.py
================================================
================================================
FILE: electricitymap/contrib/parsers/ajenti.py
================================================
"""
Initial PR https://github.com/electricitymaps/electricitymaps-contrib/pull/2456
Discussion thread https://github.com/electricitymaps/electricitymaps-contrib/issues/636
A promotion webpage for King's Island energy production is here: https://www.hydro.com.au/clean-energy/hybrid-energy-solutions/success-stories/king-island
As of 09/2020, it embeds with