China is the world's largest electricity producer, having overtaken the United States in 2011 after rapid growth since the early 1990s. In 2021, China produced 8.5 petawatt-hour (PWh) of electricity, approximately 30% of the world's electricity production.[2]

Electricity sector of China
Data
Installed capacity (2023)2919 GW
Production (2021)8.5 petawatt-hour (PWh)
China remains heavily dependent on coal for generation of electricity
By 2025, Asia is projected to account for half of the world’s electricity consumption, with one-third of global electricity to be consumed in China.[1]

Most of the electricity in China comes from coal power, which accounted for 62% of electricity generation in 2021[2] and is a big part of greenhouse gas emissions by China. Power generated from renewable energy has also been continuously increasing in the country, with national electricity generation from renewable energy reaching 594.7 TWh in Q1 2023, an increase of 11.4% year-on-year, including 342.2 TWh of wind and solar power, up 27.8% year-on-year.[3]

In 2023, China's total installed electric generation capacity was 2.92 TW,[4] of which 1.26 TW renewable, including 376 GW from wind power and 425 GW from solar power.[3] As of 2023, the total power generation capacity for renewable energy sources in China is at 53.9%.[5] The rest was mostly coal capacity, with 1040 GW in 2019.[6] Nuclear also plays an increasing role in the national electricity sector. As of February 2023, China has 55 nuclear plants with 57 GW of power in operation, 22 under construction with 24 GW and more than 70 planned with 88 GW. About 5% of electricity in the country comes from nuclear energy.[7]

China has two wide area synchronous grids, the State Grid and the China Southern Power Grid. The northern power grids were synchronized in 2005.[8] Since 2011 all Chinese provinces are interconnected. The two grids are joined by HVDC back-to-back connections.[9]

China has abundant energy reserves with the world's fourth-largest coal reserves and massive hydroelectric resources. There is however a geographical mismatch between the location of the coal fields in the north-east (Heilongjiang, Jilin, and Liaoning) and north (Shanxi, Shaanxi, and Henan), hydropower in the south-west (Sichuan, Yunnan, and Tibet), and the fast-growing industrial load centers of the east (Shanghai-Zhejiang) and south (Guangdong, Fujian).[10][better source needed]

History

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In April 1996, an Electric Power Law was implemented, a major event in China's electric power industry. The law set out to promote the development of the electric power industry, to protect the legal rights of investors, managers, and consumers, and to regulate the generation, distribution, and consumption.[citation needed]

Before 1994, electricity supply was managed by electric power bureaus of the provincial governments. Now utilities are managed by corporations outside of the government administration structure.[citation needed]

To end the State Power Corporation's (SPC) monopoly of the power industry, China's State Council dismantled the corporation in December 2002 and set up 11 smaller companies. SPC had owned 46% of the country's electrical generation assets and 90% of the electrical supply assets. The smaller companies include two electric power grid operators, five electric power generation companies, and four relevant business companies. Each of the five electric power generation companies owns less than 20% (32 GW of electricity generation capacity) of China's market share for electric power generation. Ongoing reforms aim to separate power plants from power-supply networks, privatize a significant amount of state-owned property, encourage competition, and revamp pricing mechanisms.[11]

In recent history, China's power industry is characterized by fast growth and an enormous installed base. In 2014, it had the largest installed electricity generation capacity in the world with 1505 GW and generated 5583 TWh[12] China also has the largest thermal power capacity, the largest hydropower capacity, the largest wind power capacity and the largest solar capacity in the world. Despite an expected rapid increase in installed capacity scheduled in 2014 for both wind and solar, and an expected increase to 60 GW in nuclear by 2020, coal will still account for between 65% and 75% of capacity in 2020.[13]

In Spring 2011, according to The New York Times, shortages of electricity existed, and power outages should be anticipated. The government-regulated price of electricity had not matched rising prices for coal.[14]

In 2020, Chinese Communist Party general secretary Xi Jinping announced that China aims to go carbon-neutral by 2060 in accordance with the Paris climate accord.[15]

In 2024, China's National Energy Administration ceased publishing data on power utilization by each generating source, impeding analysis of grid constraints.[16]

Production and capacity

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1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
10,000
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
  •   Wind
  •   Solar
  •   Hydro
  •   Biofuels and waste
  •   Nuclear
  •   Coal
  •   Oil
  •   Gas
  •   Fossil (Inc. Biomass)
Electricity production (GWh) in China by source, 2008–2023[17][18][19][20][21][22]
Year Total Fossil Nuclear Renewable Total
renewable
% renewable
Coal Oil Gas Hydro Wind Solar PV Biofuels Waste Solar thermal Geo-
thermal
Tide
2008 3,481,985 2,743,767 23,791 31,028 68,394 585,187 14,800 152 14,715 0 0 144 7 615,005 17.66%
2009 3,741,961 2,940,751 16,612 50,813 70,134 615,640 26,900 279 20,700 0 0 125 7 663,651 17.74%
2010 4,207,993 3,250,409 13,236 69,027 73,880 722,172 44,622 699 24,750 9,064 2 125 7 801,441 19.05%
2011 4,715,761 3,723,315 7,786 84,022 86,350 698,945 70,331 2,604 31,500 10,770 6 125 7 814,288 17.27%
2012 4,994,038 3,785,022 6,698 85,686 97,394 872,107 95,978 6,344 33,700 10,968 9 125 7 1,019,238 20.41%
2013 5,447,231 4,110,826 6,504 90,602 111,613 920,291 141,197 15,451 38,300 12,304 26 109 8 1,127,686 20.70%
2014 5,678,945 4,115,215 9,517 114,505 132,538 1,064,337 156,078 29,195 44,437 12,956 34 125 8 1,307,170 23.02%
2015 5,859,958 4,108,994 9,679 145,346 170,789 1,130,270 185,766 45,225 52,700 11,029 27 125 8 1,425,180 24.32%
2016 6,217,907 4,241,786 10,367 170,488 213,287 1,193,374 237,071 75,256 64,700 11,413 29 125 11 1,581,979 25.44%
2017 6,452,900 4,178,200 2,700 203,200 248,100 1,194,700 304,600 117,800 81,300 1,700,000 26.34%
2018 6,994,700 4,482,900 1,500 215,500 295,000 1,232,100 365,800 176,900 93,600 1,868,400 26.71%
2019 7,326,900 4,553,800 1,300 232,500 348,700 1,302,100 405,300 224,000 112,600 2,044,000 27.76%
2020 7,623,600 4,629,600 10,800 252,500 366,200 1,355,200 466,500 261,100 43,800 135,500 2,218,300 29.09%
2021 8,395,900 5,042,600 12,200 287,100 407,500 1,339,900 655,800 327,000 50,200 165,800 2,488,500 29.64%
2022 8,848,710 5,888,790 417,780 1,352,200 762,670 427,270 2,542,120 28.73%
2023 9,456,440 6,265,740 434,720 1,285,850 885,870 584,150 2,755,880 29.14%
Electricity production in China (TWh)[23]
Total From coal Coal %
2004 2,200 1,713 78%
2007 3,279 2,656 81%
2008 3,457 2,733 79%
2009 3,696 2,913 79%
2010 4,208 3,273 78%
2011 4,715 3,724 79%
2012 4,937 3,850 78%
2013 5,398 4,200 78%
2014 5,583 4,354 78%
2015 5,666 4,115 73%
2016 5,920 3,906 66%[24]
2017 6,453 4,178 65%
2018 6,995 4,483 64%
2019 7,327 4,554 62%
2020 7,623 4,926 60.7%
2021 8,395 5,042 60%
excluding Hong Kong
ChinaEnergyPortal.org

China Energy Portal publishes Chinese energy policy, news, and statistics and provides tools for their translation into English. Translations on this site depend entirely on contributions from its readers. 2020 electricity & other energy statistics (preliminary)[25]

Source 2019 [TWh] 2020 [TWh] Change [%]
Total power production 7,326.9 7,623.6 4.0
Hydro power 1,302.1 1,355.2 4.1
Thermal power 5,046.5 5,174.3 2.5
Nuclear power 348.7 366.2 5.0
Wind power 405.3 466.5 15.1
Solar power 224 261.1 16.6
Source 2019 [GW] 2020 [GW] Change [%]
Installed generation capacity 2,010.06 2,200.58 9.5
Hydro power 358.04 370.16 3.4
Thermal power 1,189.57 1,245.17 4.7
Nuclear power 48.74 49.89 2.4
Wind power 209.15 281.53 34.6
Solar power 204.18 253.43 24.1
Source 2019 [MW] 2020 [MW] Change [%]
Change in generation capacity 105,000 190,870 81.8
Hydro power 4,450 13,230 197.7
Thermal power 44,230 56,370 27.4
Nuclear power 4,090 1,120 −72.6
Wind power 25,720 71,670 178.7
Solar power 26,520 48,200 81.7

(Note that change in generation capacity is new installations minus retirements.)

National Bureau of Statistics of China

The official Statistics available in English are not all up to date. Numbers are given in "(100 million kw.h)"[26] which equals 100 GWh or 0.1 TWh.

Electricity Production by source 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021
Hydro Power 6989.4 8721.1 9202.9 10728.8 11302.7 11840.5 11978.7 12317.9 13044.4 13552.1 13401
Thermal Power 38337 38928.1 42470.1 44001.1 42841.9 44370.7 47546 50963.2 52201.5 53302.5 56463
Nuclear Power 863.5 973.9 1116.1 1325.4 1707.9 2132.9 2480.7 2943.6 3481 3662 4075
Wind Power 703.3 959.8 1412 1599.8 1857.7 2370.7 2972.3 3659.7 4057 4665 6556
Solar Power 26 63.4 154.5 292 452.3 752.6 1178 1769 2240 2611 3270

Sources

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Coal power

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Coal-fired power plant in China

Coal power in China is electricity generated from coal in China and is distributed by the State Power Grid Corporation. It is a big source of greenhouse gas emissions by China.

China's installed coal-based power generation capacity was 1080 GW in 2021,[27] about half the total installed capacity of power stations in China.[28] Coal-fired power stations generated 57% of electricity in 2020.[29] Over half the world's coal-fired power is generated in China.[30] 5 GW of new coal power was approved in the first half of 2021.[28] Quotas force utility companies to buy coal power over cheaper renewable power.[31] China is the largest producer and consumer of coal in the world and is the largest user of coal-derived electricity. Despite China (like other G20 countries) pledging in 2009 to end inefficient fossil fuel subsidies, as of 2020 there are direct subsidies and the main way coal power is favoured is by the rules guaranteeing its purchase – so dispatch order is not merit order.[32]

The think tank Carbon Tracker estimated in 2020 that the average coal fleet loss was about 4 USD/MWh and that about 60% of power stations were cashflow negative in 2018 and 2019.[33] In 2020 Carbon Tracker estimated that 43% of coal-fired plants were already more expensive than new renewables and that 94% would be by 2025.[34] According to 2020 analysis by Energy Foundation China, to keep warming to 1.5 degrees C all China's coal power without carbon capture must be phased out by 2045.[35] But in 2023 many new coal power stations were approved.[36] Coal power stations receive payments for their capacity.[37] A 2021 study estimated that all coal power plants could be shut down by 2040, by retiring them at the end of their financial lifetime.[38]

Retirement and addition of coal-fired power capacity
The annual amount of coal plant capacity being retired increased into the mid-2010s.[39] However, the rate of retirement has since stalled,[39] and global coal phase-out is not yet compatible with the goals of the Paris Climate Agreement.[40]
In parallel with retirement of some coal plant capacity, other coal plants are still being added, though the annual amount of added capacity has been declining since the 2010s.[41]
 
Coal is the main source of electricity but its share is declining

To curtail the continued rapid construction of coal fired power plants, strong action was taken in April 2016 by the National Energy Administration (NEA), which issued a directive curbing construction in many parts of the country.[42] This was followed up in January 2017 when the NEA canceled a further 103 coal power plants, eliminating 120 GW of future coal-fired capacity, despite the resistance of local authorities mindful of the need to create jobs.[43] The decreasing rate of construction is due to the realization that too many power plants had been built and some existing plants were being used far below capacity.[44] In 2020 over 40% of plants were estimated to be running at a net loss and new plants may become stranded assets.[32] In 2021 some plants were reported close to bankruptcy due to being forbidden to raise electricity prices in line with high coal prices.[45]

As part of China's efforts to achieve its pledges of peak coal consumption by 2030 and carbon neutrality by 2060, a nationwide effort to reduce overcapacity resulted in the closure of many small and dirty coal mines.[46]: 70  Major coal-producing provinces like Shaanxi, Inner Mongolia, and Shanxi instituted administrative caps on coal output.[46]: 70  These measures contributed to electricity outages in several northeastern provinces in September 2021 and a coal shortage elsewhere in China.[46]: 70  The National Development and Reform Commission responded by relaxing some environmental standards and the government allowed coal-fired power plants to defer tax payments.[46]: 71  Trade policy was adjusted to permit the importation of a small amount of coal from Australia.[46]: 72  The energy problems abated in a few weeks.[46]: 72 

In 2023, The Economist wrote that ‘Building a coal plant, whether it is needed or not, is also a common way for local governments to boost economic growth.’ and that ‘They don’t like depending on each other for energy. So, for example, a province might prefer to use its own coal plant rather than a cleaner energy source located elsewhere.’[47]

Hydropower

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Liujiaxia Dam in Gansu
 
The Three Gorges Dam is the largest power station (of any kind) in the world by installed capacity, with 22.5 GW.

Hydroelectricity is currently China's largest renewable energy source and the second overall after coal.[48] China's installed hydro capacity in 2020 was 370 GW,[49] this is an increase of 51 GW over the 2015 number of 319 GW, and up from 172 GW in 2009, including pumped storage hydroelectricity capacity. In 2021, hydropower generated 1,300 TWh of power, accounting for 15% of China's total electricity generation.[2] In contrast, in 2015 hydropower generated 1,126 TWh of power, accounting for roughly 20% of China's total electricity generation.[50]

Due to China's insufficient reserves of fossil fuels and the government's preference for energy independence, hydropower plays a big part in the energy policy of the country. China's potential hydropower capacity is estimated at up to 600 GW, but currently, the technically exploitable and economically feasible capacity is around 500 GW.[citation needed] There is therefore the considerable potential for further hydro development.[48] The country has set a 350 GW capacity target for 2020.[48] Being flexible, existing hydropower can back up large amounts of solar and wind.[51]

Hydroelectric plants in China have relatively low productivity, with an average capacity factor of 31%, a possible consequence of rushed construction[48] and the seasonal variability of rainfall. Moreover, a significant amount of energy is lost due to the need for long transmission lines to connect the remote plants to where demand is most concentrated.[48]

Although hydroelectricity represents the largest renewable and low greenhouse gas emissions energy source in the country, the social and environmental impact of dam construction in China has been large, with millions of people forced to relocate and large scale damage to the environment.[52]

Wind power

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Wind farm in Xinjiang, China
 
Wind farm in Xinjiang, China

With its large land mass and long coastline, China has exceptional wind resources:[53] it is estimated China has about 2,380 GW of exploitable capacity on land and 200 GW on the sea.[54] At the end of 2021 there was 329 GW of Wind power in China proving 655,000 gigawatt-hours (GWh) of wind electricity to the grid[2] This contrast with the 114 GW of electricity generating capacity installed in China in 2014[55] (although capacity of wind power is not on par with capacity of nuclear power).[56] In 2011, China's plan was to have 100 GW of wind power capacity by the end of 2015, with an annual wind generation of 190 terawatt-hours (TWh).[57]

China has identified wind power as a key growth component of the country's economy.[58]

Nuclear power

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In terms of nuclear power generation, China will advance from a moderate development strategy to an accelerating development strategy. Nuclear power will play an even more important role in China's future power development. Especially in the developed coastal areas with heavy power loads, nuclear power will become the backbone of the power structure there. As of February 2023, China has 55 plants with 57 GW of power in operation, 22 under construction with 24 GW and more than 70 planned with 88 GW. About 5% of electricity in the country is due to nuclear energy.[7] These plants generated 417 TWh of electricity in 2022. [59] This percentage is expected to double every 10 years for several decades out. Plans are for 200 GW installed by 2030 which will include a large shift to Fast Breeder reactor and 1500 GW by the end of this century.

Solar power

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China is the world's largest market for both photovoltaics and solar thermal energy. At the end of 2021 there was 306 GW of solar power in China proving 377,000 gigawatt-hours (GWh) of solar power electricity to the grid (out of total 7,770,000 GWh electricity power production.[2] In comparison, of the 7,623 TWh electricity produced in China in 2020, 261.1 TWh was generated by solar power, equivalent to 3.43% of total electricity production.[60] This was a 289% increase since 2016, when production was 67.4 TWh,[61] equivalent to an annual growth rate of 40.4%.

China has been the world's leading installer of solar photovoltaics since 2013 (see also growth of photovoltaics), and the world's largest producer of photovoltaic power since 2015.[62][63][64] In 2017 China was the first country to pass 100 GW of cumulative installed PV capacity.[65] However electricity prices are not properly varied by time of day, so do not properly incentivize system balancing.[66]

Solar water heating is also extensively implemented, with a total installed capacity of 290 GWth at the end of 2014, representing about 70% of world's total installed solar thermal capacity.[67][68] The goal for 2050 is to reach 1,300GW of Solar Capacity. If this goal is to be reached it would be the biggest contributor to Chinese electricity demand.[69]

Natural gas

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China produced 272 Twh of electricity from natural gas in 2021.[2]

China is a global powerhouse in the field of natural gas and one of the world's largest consumers and importers of natural gas. By the end of 2023, China's natural gas industry achieved major milestones, reflecting its important role in the country's energy transformation and its contribution to global natural gas market dynamics.

 
Natural gas factory in Suzhou, Jiangsu

In 2023, China's natural gas production will increase significantly, with the total volume reaching approximately 229.7 billion cubic meters.[70] This represents an increase of nearly 10 billion cubic meters per year and highlights China's efforts to increase domestic production and reduce reliance on imports. Despite the increase in domestic production, China remains the world's largest importer of liquefied natural gas (LNG), importing approximately 165.56 billion cubic meters of natural gas, of which LNG imports account for a large portion.[70] This import capacity strengthens China's key role in the international LNG market and reflects its strategic measures to ensure energy security and supply stability.

Natural gas demand also rebounded, with apparent consumption increasing to 388.82 billion cubic meters. The growth highlights the growing role of natural gas in China's energy mix, driven by its economic recovery and transition to clean energy. Natural gas import dependence is 40.9%, indicating a balance between domestic production and imports to meet the country's energy needs.[70]

Biomass and waste

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Hanyang Guodingshan Waste to Energy Plant in Wuhan.

China produced 169 Twh of electricity from biomass, geothermal and other renewable sources of energy in 2021.[2]

Since the implementation of supportive policies beginning in 2006, investment and growth in the biomass power sector have accelerated. By 2019, investments had reached an impressive 150.2 billion yuan, climbing further to over 160 billion yuan by 2020, with more than 1,350 biomass projects underway across the country. This growth trajectory has been marked by a significant increase in installed capacity, which saw a record addition of 6,280 MW in 2019. Although the COVID-19 pandemic slightly slowed momentum in 2020, reducing the added capacity to 5,430 MW, the sector's growth trend continued upwards.[71]

Policy initiatives introduced in 2012 and 2016 have been pivotal in spurring the expansion of biomass power generation, leading to a substantial increase in power output. By 2019, biomass power generation had achieved a total output of 111,100 GWh, which further rose to 132,600 GWh in 2020, indicating robust year-on-year growth.[71]

Storage

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Energy storage plays a critical role in China's energy landscape, serving as a key enabler for the large-scale integration of renewable energy sources, such as wind and solar power, into the national grid. By mitigating the variability and intermittency of renewable energy, storage technologies facilitate a more stable and reliable power supply. China has been investing heavily in various storage solutions, including battery storage systems, pumped hydro storage, and flywheel energy storage, among others. These technologies not only help in balancing supply and demand but also in improving the overall efficiency and resilience of the power system.

In 2023, China's energy storage industry saw a dramatic surge, with its capacity expanding nearly fourfold due to advancements in technologies such as lithium-ion batteries. This remarkable growth was fueled by an investment exceeding 100 billion yuan (around US$13.9 billion) in recent years. By the close of 2023, the capacity within the sector of new-type energy storage soared to 31.39 gigawatts (GW), achieving an increase of over 260% compared to the previous year and almost a tenfold rise since 2020. The sector encompasses a range of innovative technologies, including electrochemical energy storage, compressed air energy storage, flywheel energy storage, and thermal energy storage, while pumped hydro storage is not included in this category.[72]

Demand response

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China's government has introduced a number of policies to promote the development of demand response, such as the 2012 "Interim Measures for the Management of Pilot Cities with Central Fiscal Funds to Support Electricity Demand Side Management."[73] The DR mechanism incentivizes electricity users to adjust their consumption patterns based on signals from grid operators, either reducing demand during peak hours (peak shaving) or increasing demand during off-peak hours (valley filling). This flexibility is critical to maintaining grid stability and ensuring efficient use of energy resources.[74]

China's approach to DR has included pilot projects in cities like Suzhou, Beijing, and Shanghai, focusing on tariff reforms and pricing strategies to encourage participation. Despite these efforts, challenges remain, such as the low participation rate of grid companies and the lack of transparency in grid operation data, hindering the widespread adoption of DR.[73]

The types of demand response in China are:[74]

  • Invitation DR: Local governments or grid companies invite consumers to participate in DR events, offering financial incentives for adjusting their load during specified times.[74][75]
  • Real-time DR: Requires participants to respond to demand response signals in real-time, often with minimal notice, to address immediate grid needs.
  • Economic DR: Utilizes price signals, such as peak and off-peak rates, to motivate consumers to voluntarily adjust their energy usage according to the cost of electricity.

Transmission infrastructure

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Tibet Power is the company that manages power in Tibet, and is controlled by the State Grid Corporation.

The central government has made the creation of a unified national grid system a top economic priority to improve the efficiency of the whole power system and reduce the risk of localised energy shortages. It will also enable the country to tap the enormous hydro potential from western China to meet booming demand from the eastern coastal provinces. China is planning for smart grid and related Advanced Metering Infrastructure.[76]

Ultra-high-voltage transmission

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The main problem in China is the voltage drop when power is sent over very long distances from one region of the country to another.

Long distance inter-regional transmission has been implemented by using ultra-high voltages (UHV) of 800 kV, based on an extension of technology already in use in other parts of the world.[77]

In 2015, State Grid Corporation of China proposed the Global Energy Interconnection, a long-term proposal to develop globally integrated smart grids and ultra high voltage transmission networks to connect over 80 countries.[78]: 92–93  The idea is supported by President Xi Jinping and China in attempting to develop support in various internal forums, including UN bodies.[78]: 92 

Companies

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In terms of the investment amount of China's listed power companies, the top three regions are Guangdong province, Inner Mongolia Autonomous Region and Shanghai, whose investment ratios are 15.33%, 13.84% and 10.53% respectively, followed by Sichuan and Beijing.

China's listed power companies invest mostly in thermal power, hydropower and thermoelectricity, with their investments reaching CNY216.38 billion, CNY97.73 billion, and CNY48.58 billion respectively in 2007. Investment in gas exploration and coal mining follow as the next prevalent investment occurrences.

Major players in China's electric power industry include:

The five majors, and their listed subsidiaries: The five majors are all SOEs directly administered by SASAC.[79] Their listed subsidiaries are substantially independent, hence counted as IPPs, and are major power providers in their own right. Typically each of the big 5 has about 10% of national installed capacity, and their listed subsidiary has an extra 4 or 5% on top of that.

parent of Datang International Power Generation Company (SEHK: 991; SSE: 601991)
parent of GD Power Development Company (SSE: 600795),
parent of Huadian Power International Co., Ltd.
parent of Huaneng Power International (NYSE:HNP)
parent of China Power International Development Limited ("CPID", 2380.HK)

Additionally, two other SOEs also have listed IPP subsidiaries:

parent of China Shenhua Energy Company (SEHK: 1088, SSE: 601088)
parent of China Resources Power Holdings Company Limited ("CRP", SEHK: 836)

Secondary companies:

Nuclear and hydro:

Grid operators include:

Creation of a spot market has been suggested to properly use energy storage.[82]

Consumption and territorial differences

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More than a third of electricity is used by industry.[83] China consists of three largely self-governing territories: the mainland, Hong Kong, and Macau. The introduction of electricity to the country was not coordinated between the territories, leading to partially different electrical standards. Mainland China uses type A and I power plugs with 220 V and 50 Hz; Hong Kong and Macau both use type G power plugs with 220 V and 50 Hz. Inter-territorial travelers may therefore require a power adapter.

See also

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References

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  1. ^ "Electricity Market Report 2023" (PDF). IEA.org. International Energy Agency. February 2023. p. 15. Archived (PDF) from the original on 15 March 2023. Licensed CC BY 4.0.
  2. ^ a b c d e f g https://www.bp.com/content/dam/bp/business-sites/en/global/corporate/pdfs/energy-economics/statistical-review/bp-stats-review-2022-full-report.pdf
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  9. ^ Zhenya, Liu (28 August 2015). Global energy interconnection. Academic Press. p. 45. ISBN 9780128044063. After the completion and commissioning of Tibet's ±400 kV DC interconnected power grid in December 2011, China has achieved nationwide interconnections covering all its territories other than Taiwan.
  10. ^ Kambara, Tatsu (1992). "The Energy Situation in China". The China Quarterly. 131 (131): 608–636. doi:10.1017/S0305741000046312. ISSN 0305-7410. JSTOR 654899. S2CID 154871503.
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