Of the total 329 TWh of electricity generated in 2021; natural gas produced 42%, coal 26%, hydropower 13%, and wind 10%. Academics have suggested that the target of 32% from renewables by 2030 should be increased to at least 50%. The state-owned
Electricity Generation Company (EÜAŞ) has about 20% of the market, and there are many private companies. The
carbon intensity of generation during the 2010s was slightly over 400 gCO2/kWh, around the global average.
Coal Gas In 2020, power plants consumed 29% of
natural gas in Turkey. State-owned
gas-fired power plants are less efficient than private plants, but can out-compete them, as the state guarantees a price for their electricity. Gas power plants are used more when drought reduces hydropower, such as in 2021 which was a record year for gas consumption. The National Energy Plan published in 2023 forecasted 10 GW more gas power plants would be built. However in the 3 years to 2025 gas power fell, perhaps due to the increase in solar and cheap coal from Russia.
Hydropower in Turkey is the third largest dam in the world.
Hydropower is a critical source of electricity, and in some years substantial amounts can be generated due to Turkey's mountainous landscape, abundance of rivers, and it being surrounded by three seas. The main river basins are the
Euphrates and the
Tigris. Many dams have been built throughout the country, and a peak of 28 GW of power can be generated by hydroelectric plants. Almost 90 TWh was generated in 2019, around 30% of the country's electricity. There are many
policies that support hydroelectricity. Construction of some dams has been controversial for various reasons: for example environmentalists claiming they damage
wildlife such as fish, or downstream countries complaining of reduced water flow. Due to changes in rainfall, generation varies considerably from year to year. And, according to
S&P Global Platts, when there is
drought in Turkey during the peak electricity demand month of August the aim of the
State Hydraulic Works to conserve water for irrigation can conflict with the Turkish Electricity Transmission Corporation aiming to generate electricity. Despite droughts increasing due to
climate change, hydropower is predicted to remain important for
load balancing. Converting existing dams to
pumped storage has been suggested as more feasible than new pumped storage.
Wind Solar in
Mersin is the only generator using concentrated solar, the rest are photovoltaic.|alt=Distant view from a high point of a hill with concentric rows of mirrors most of the way around a slim tower
Turkey is located in an advantageous position in the
Middle East and
Southeast Europe for
solar energy, and it is a growing part of renewable energy in the country, with almost 8 GW generating about 4% of the country's electricity. Solar potential is high in Turkey, especially in the south-east and Mediterranean provinces. Conditions for solar power generation are comparable to
Spain. In 2020 Turkey ranked 8th in Europe for solar power, and the auction system was improved. Every gigawatt of solar power installed would save over US$100 million in gas import costs. Peak daily generation in 2020 was over 1 TWh in September. According to modelling by Carbon Tracker, new solar power became cheaper than new coal power in 2020, and will become cheaper than existing coal plants in 2023. According to think tank Ember, building new solar and
wind power in Turkey is cheaper than running existing coal plants which depend on imported coal. But they say that there are obstacles to building
utility-scale solar, such as: lack of new capacity for solar power at
transformers, a 50 MW cap on any single solar power plant's installed capacity, and large consumers being unable to sign long term
power purchase agreements for new solar installations. with potential for more. As well as contributing to electricity generation, geothermal energy is also used in direct heating applications. At the end of 2021 Turkey had 1.7 GW installed capacity, the fourth largest in the world after the United States, Indonesia and the Philippines. There is almost 2 GW of geothermal and sites for much more including
enhanced geothermal systems. However carbon dioxide emissions can be high, especially for new plants, so to prevent carbon dioxide dissolved out of the rocks being released into the atmosphere the fluid is sometimes completely reinjected after its heat is used.
Nuclear Turkey's first
nuclear power plant, at
Akkuyu, is planned to start generation in 2023, and is expected to last for at least 60 years. The
nuclear power debate has a long history, with the 2018 construction start in
Mersin Province being the sixth major attempt to build a nuclear power plant since 1960.
Nuclear power has been criticised, as being very expensive to taxpayers. Plans for a
nuclear power plant at Sinop and another at
İğneada have stalled.
Hybrid, distributed and virtual generation Hybrid generation became more popular in the early 2020s. If
distributed generation installed power is under 11 kW, it is only allowed to be connected to the low voltage network, not the high voltage network. The first
virtual power plant was created in 2017 with wind, solar and hydropower; and geothermal was added in 2020. ==Transmission and storage==