Wind power in China

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Wind power plants in Xinjiang, China.jpg
Wind farm xinjiang.jpg
Wind farm in Xinjiang, China

China is the world leader in wind power generation, with the largest installed capacity of any nation [1] and continued rapid growth in new wind facilities. [2] With its large land mass and long coastline, China has exceptional wind power resources: [3] Wind power remained China's third-largest source of electricity at the end of 2021, accounting for 7.5% of total power generation. [4]

Contents

In 2020, China added 71.6 GW of wind power generation capacity to reach a total capacity of 281GW. [5] Both China's installed capacity and new capacity in 2020 are the largest in the world by a wide margin, with the next largest market, the United States, adding 14 GW in 2020 and having an installed capacity of 118 GW. [6]

China is forecast to have 1200 GW of combined wind and solar capacity by 2030 as part of the government's pledge to increase the share of non-fossil fuels in primary energy consumption to around 25% by that year. [7] In late 2020, the Chinese government set out a road map for total installed capacity of wind and solar to be 1,200 gigawatts by 2030. [8] China has identified wind power as a key growth component of the country's economy. [9] Experts say that China can achieve carbon neutrality before 2060 and peak emissions before 2030. [10]

In 2021, China was responsible for almost 70% of new wind installed capacity while United States accounted at 14% and Brazil at 7%. [11]

As of at least 2024, China is the world's largest wind power equipment manufacturing base. [12] [13] The largest domestic wind turbine manufacturer in China is Goldwind from Xinjiang province. Established in 1998, Goldwind aggressively developed new technology and expanded its market share, though this then decreased from 35% in 2006 to 19% in 2012. [14] In 2019, Goldwind was one of the first partners to sign up for a wind-to-hydrogen project in northeast China, in the hopes of putting China's currently unused wind generation potential to good use and turn stranded wind power into a cheap energy source for hydrogen production. [15] The China Longyuan Electric Power Group Corp., another subsidiary of China Guodian Corporation, was an early pioneer in wind farm operation; at one point it operated 40% of the wind farms in China. [16]

According to a 2020 forecast by Fitch Solutions, wind generation is expected to reach approximately 1,000TWh in China by 2028 compared to previous forecasts of 870TWh, due to reduced project cost made feasible by upgrades in the efficiency of technology. [17]

Installed capacity

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Wind power generation in China (TWh)
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Wind power installed capacity in China (GW)
Mean Wind Speed in China. Mean-wind-speed-map-china-Global-Wind-Atlas.png
Mean Wind Speed in China.

Between 2006 and 2009, China's wind power grew particularly quickly, with capacity doubling every year for four years in a row. [19] :175–176

Wind power in China
YearCapacity
(MW) [20] 		Production
(GWh) [21] 		Capacity
factor
20051,2601,92717.5%
20062,5993,67516.1%
20075,9125,71011.0%
200812,20014,80013.8%
200916,00026,90019.2%
201031,10044,62216.4%
201162,70074,10013.5%
201275,000103,00015.7%
201391,424134,90016.8%
2014114,763153,40015.3%
2015129,700186,30016.4%
2016149,000241,00018.5%
2017163,670305,70021.3%
2018 [22] 184,260366,00022.7%
2019 [23] 210,050405,70022.0%
2020282,650466,50018.8%
2021 [24] 328,480655,60022.9%

History

Wind turbine tower elements in an assembly facility in Liu'ao, Zhangpu County, Fujian Liu'ao - P1250266.JPG
Wind turbine tower elements in an assembly facility in Liu'ao, Zhangpu County, Fujian
A Goldwind wind farm outside of Urumqi, Xinjiang Wind Farm Outside Urumqi.jpg
A Goldwind wind farm outside of Urumqi, Xinjiang
Wind power turbine towers in Liu'ao, near the "Abstract Art Gallery" Liu'ao - P1250409.JPG
Wind power turbine towers in Liu'ao, near the "Abstract Art Gallery"

In 2005, the standing committee of the National People's Congress passed a law that requires Chinese power grid enterprises to purchase all the electricity produced by the renewable energy sector. [25]

Chinese developers unveiled the world's first permanent Maglev wind turbine at the Wind Power Asia Exhibition 2006 held in Beijing. The Zhongke Hengyuan Energy Technology company invested CN¥400 million in building the base for the maglev wind turbine generators, in which construction began in November 2007. Zhongke Hengyuan expects a yearly revenue of CN¥1.6 billion from the generators.

In 2006 the Shanghai Power Company purchased 64.485 gigawatt-hours (GWh) of green energy (primarily from wind farms), yet the amount of renewable energy which was subscribed by customers from Shanghai Power Company was only 23% of that total. In 2006 there were just 6,482 households in Shanghai that subscribed to renewable energy in part because the cost of wind power is 0.53 Yuan/kWh higher than power produced from coal plants; in 2007 total output of wind farms in Shanghai will total 100 GWh, which is sufficient to power 120,000 households. Though there were 22 entities that purchased renewable energy in Shanghai, though with the exception of 1/3 of that total being state owned enterprises, the remainder was foreign invested enterprises. Shanghai's city government did not purchase any renewable energy. Of the top ten power customers in Shanghai, only Bao Steel purchased renewable energy; in 2006 Bao Steel entered into an agreement to purchase 1.2 GWh over three years. [26]

By the end of 2008, at least 15 Chinese companies were commercially producing wind turbines and several dozen more were producing components. [27] Turbine sizes of 1.5  MW to 3 MW became common. Leading wind power companies in China were Goldwind, Dongfang Electric, and Sinovel [28] along with most major foreign wind turbine manufacturers. [29] China also increased production of small-scale wind turbines to about 80,000 turbines in 2008. Through all these developments, the Chinese wind industry appeared unaffected by the Great Recession, according to industry observers. [28]

China became the largest wind energy provider worldwide in 2010, with the installed wind power capacity reaching 41.8 GW at the end of the year. However, about a quarter of this capacity was not connected to the grid. [30]

In 2011, China put forth a plan to have 100 GW of grid-connected wind power capacity by the end of 2015 and to generate 190 terawatt-hours of wind power annually. [31] This target was reached in 2014, making China the first country in the world to reach 100 GW of installed wind capacity. [32] As of 2014, Goldwind remains the largest competitor in the Chinese wind energy market, with a 19% share of new installations. It is followed by Guodian United Power Technology Company (a subsidiary of China Guodian Corporation) at 11%, and Mingyang Wind Power at 9%. [32]

The Gansu Wind Farm Project in western Gansu province is one of six national wind power megaprojects approved by the Chinese government. [33]

Although in some countries there are aesthetic objections to large-scale wind farms, in China they are often perceived as an aesthetic positive due to their associations with modernity and green development. [34] :119

Offshore wind

Donghai Bridge Wind Farm Donghai Bridge Wind Farm.jpg
Donghai Bridge Wind Farm
Guishan Offshore Windfarm, near Zhuhai in Guangdong province, China. Zhuhai Windfarm.jpg
Guishan Offshore Windfarm, near Zhuhai in Guangdong province, China.

Offshore wind power is a major part of China's clean energy development strategy. The country has a coastline measuring 18,000 kilometers long and is estimated to have up to 750 million kilowatts of offshore exploitable wind power resources. [12] In 2012 China set the goal of 5 GW of installed offshore wind capacity by 2015 and 30 GW by 2020. [35] [36] However, development of offshore wind power did not come as fast as expected. Construction of Donghai Bridge Wind Farm, the first offshore wind farm in China started in April 2009, close to Donghai Bridge, and commissioned in 2010 to provide electricity to the 2010 Shanghai Expo. The wind farm consists of 34 Sinovel 3 MW wind turbines at a cost of US$ 102 million. [3] [37] [38] The next is the 150 MW Longyuan Rudong Intertidal Wind Farm costing 500 million ¥, operational in 2012. [39] [40] [41] By the end of 2012, China had only installed 389.6 MW offshore wind capacity, still far from the target goal of 5 GW by the end of 2015. [36]

In May 2014, total capacity of offshore wind power in China was 565 MW, [42] which raised to about 900 MW in 2015, less than a fifth of the expected target. [43] Installations increased substantially in 2016, with 592 MW of offshore wind power capacity deployed, ranking third in the world behind Germany and the Netherlands. [44] By the end of 2016, the total cumulative offshore wind power capacity in the country was 1.9 GW. [45]

Offshore wind development slower pace in China is mainly due to the lack of experience of domestic turbine manufacturers in the sector. This forces local development to use foreign products, resulting in Siemens being the largest supplier of offshore wind turbines in China. Another problem is the huge investment needed and associated risks of offshore development, which discourage private companies. [43]

On 5 August 2020, a new report revealed by the Global Wind Energy Council stated that China is expected to host more than a fifth of the world's offshore wind turbines, equating to 52 GW, claiming the top spot for the largest market for offshore wind by 2030. [46]

In 2021 alone, China built more offshore wind capacity than the rest of the world had built in the last 5 years put together. It commissioned 16.9 GW of offshore wind capacity, which accounted for 80% of all new capacity in 2021 worldwide. That massive expansion had meant that China today operates almost half of the world's installed offshore wind, with 26 GW of a total of 54 GW worldwide. [47] [48]

Issues

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Nuvola apps kaboodle.svg Access to mountaintops can be challenging

Areas with great wind power potential such as Gansu are sometimes far away from established industrial and residential centers. Coal-fired plants have a constituency of miners and local governments which wind-power projects lack. This has led to power generated by wind remaining underused. [49]

Transmission capacity of the grid hasn't kept up with the growth of China's wind farms. In 2009, only 72% (8.94 GW) of China's total wind power capacity was connected to the grid. [50] In 2014, 96.37 GW of China's capacity was connected to the grid, [51] out of a total capacity of 114.6 GW. [32] In the first half of 2015, 1.75 TWh of wind power was wasted according to China's National Energy Administration. The slowdown in the Chinese economy in 2015 also led to overcapacity in the power sector, reducing demand. [52] In an effort to reduce excess power capacity and encourage greater use of renewables, the Chinese government halted approvals for construction of new coal power plants for the three-year period starting in 2016. [53] Combined curtailment of North China wind power was nearly 34 TWh in 2015. [54]

In 2014, the US generated more electricity from wind (167 TWh) despite a lower generating capacity because of China's connectivity and grid capacity problems. [55] According to a 2013 report in The Economist, the US produced 40% more energy from a similar capacity of wind power, because Chinese wind farms are not efficiently connected to the power grid. [56]

A potential solution will be to move wind turbines to urban areas, but not without challenges. Shen et al. (2019) discover that Chinese city-dwellers may be somewhat resistant to building wind turbines in urban areas, with a surprisingly high proportion of people citing an unfounded fear of radiation as driving their concerns. [57] In addition, the study finds that like their counterparts in OECD countries, urban Chinese respondents are sensitive to direct costs and to wildlife externalities. Distributing relevant information about turbines to the public may alleviate resistance.

See also

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References

  1. Gang, Wu (28 October 2015). "Wind Matters: China's Role in the Future of Wind" (PDF). Goldwind. Archived from the original (PDF) on 4 January 2017. Retrieved 8 February 2016.
  2. "China's new wind power capacity hits record high - Xinhua | English.news.cn". News.xinhuanet.com. Archived from the original on 3 February 2016. Retrieved 8 February 2016.
  3. 1 2 Oceans of Opportunity: Harnessing Europe’s largest domestic energy resource pp. 18-19.
  4. "China: power generation by source 2020". Statista. Retrieved 11 March 2021.
  5. Stanway, Muyu Xu, David (21 January 2021). "China doubles new renewable capacity in 2020; still builds thermal plants". Reuters. Retrieved 11 March 2021.{{cite news}}: CS1 maint: multiple names: authors list (link)
  6. "The United States installed more wind turbine capacity in 2020 than in any other year - Today in Energy - U.S. Energy Information Administration (EIA)". www.eia.gov. Retrieved 11 March 2021.
  7. "China aims to push wind and solar capacity beyond 1,200 GW by 2030". Reuters. 12 December 2020. Retrieved 11 March 2021.
  8. December 12; Chen, 2020 Jake Schmidt Alvin Lin Brendan Guy Han. "China Outlines Additional Steps on Climate Action". NRDC. Retrieved 11 March 2021.{{cite web}}: CS1 maint: numeric names: authors list (link)
  9. Gow, David (3 February 2009). "Wind power becomes Europe's fastest growing energy source". The Guardian . London. Retrieved 31 January 2010.
  10. "Experts: Environmental objectives fully attainable". chinadailyhk. Retrieved 11 March 2021.
  11. "Wind Electricity – Analysis". IEA. Retrieved 25 January 2023.
  12. 1 2 "How China is leading the world in clean energy". The CEO Magazine. Retrieved 21 December 2022.
  13. "Tensions Grow as China Ramps up Global Mining for Green Tech". BBC . 29 April 2024. Retrieved 4 September 2024.
  14. Lema, Adrian; Ruby, Kristian (2007). "Between fragmented authoritarianism and policy coordination: Creating a Chinese market for wind energy". Energy Policy. 35 (7): 3879–3890. doi:10.1016/j.enpol.2007.01.025.
  15. "Goldwind joins 20GW hydrogen plan in China | REVE News of the wind sector in Spain and in the world" . Retrieved 13 October 2020.
  16. "Wind Energy Businesses in China". Energy.sourceguides.com. Retrieved 31 January 2010.
  17. "Tech upgrades to push China's wind generation to 700TWh by 2028". Asian Power. Retrieved 13 October 2020.
  18. "Global Wind Atlas" . Retrieved 7 December 2018.
  19. Lewis, Joanna I. (2023). Cooperating for the Climate: Learning from International Partnerships in China's Clean Energy Sector. Cambridge, Massachusetts: The MIT Press. ISBN   978-0-262-54482-5.
  20. "Wind Electricity Installed Capacity". International Energy Statistics. Energy Information Administration (EIA). Retrieved 6 October 2013.
  21. "Wind Electricity Net Generation". International Energy Statistics. EIA. Retrieved 6 October 2013.
  22. "2018 electricity & other energy statistics". Chinaenergyportal.org. 25 January 2019. Retrieved 9 February 2019.
  23. "2019 electricity & other energy statistics". Chinaenergyportal.org. 21 January 2020. Retrieved 8 February 2020.
  24. "2021 electricity & other energy statistics (preliminary)". Chinaenergyportal.org. 27 January 2022. Retrieved 19 February 2022.
  25. "Renewable Energy Law of the People's Republic of China". Ministry of Commerce of the People's Republic of China. 20 December 2013. Retrieved 13 December 2015.
  26. Tai Nengling; Zhai Haiqing (12 September 2003). "Operation of quoting and bidding system in Shanghai power generation market". 2003 IEEE PES Transmission and Distribution Conference and Exposition (IEEE Cat. No.03CH37495). pp. 689–697. doi:10.1109/TDC.2003.1335360. ISBN   0-7803-8110-6. S2CID   109807396.
  27. "Caprotti Federico (2009) China's Cleantech Landscape: The Renewable Energy Technology Paradox Sustainable Development Law & Policy Spring 2009: 6–10" (PDF). Archived from the original (PDF) on 9 June 2011. Retrieved 31 January 2010.
  28. 1 2 REN21 (2009). Renewables Global Status Report: 2009 Update Archived 12 June 2009 at the Wayback Machine p. 16.
  29. Adrian Lema and K. Ruby, "Towards a policy model for climate change mitigation: China's experience with wind power development and lessons for developing countries", Energy for Sustainable Development, Vol. 10, Issue 4.
  30. McDermott, Mat. "One Quarter of China's Wind Power Still Not Connected to Electricity Grid" TreeHugger , 7 March 2011. Retrieved: 11 July 2012;
  31. "China revises up 2015 renewable energy goals: report". Reuters. 29 August 2011.
  32. 1 2 3 "GLOBAL WIND REPORT : ANNUAL MARKET UPDATE 2014" (PDF). Gwec.net. Retrieved 15 August 2018.
  33. Watts, Jonathan & Huang, Cecily. Winds Of Change Blow Through China As Spending On Renewable Energy Soars, The Guardian , 19 March 2012, revised on 20 March 2012. Retrieved 4 January 2012.
  34. Bachulska, Alicja; Leonard, Mark; Oertel, Janka (2 July 2024). The Idea of China: Chinese Thinkers on Power, Progress, and People (EPUB). Berlin, Germany: European Council on Foreign Relations. ISBN   978-1-916682-42-9. Archived from the original on 17 July 2024. Retrieved 22 July 2024.
  35. Pek, Alyssa (10 September 2012). "Global Offshore: Current Status and Future Prospects". Global Wind Energy Council. Retrieved 4 June 2021.
  36. 1 2 "Analysis - China unable to achieve 5GW offshore wind goal by 2015". Windpowermonthly.com. Retrieved 15 August 2018.
  37. "Xinhuanet news". Archived from the original on 6 November 2012. Retrieved 18 November 2016.
  38. Donghai Bridge (China) offshore wind farm 4C . Retrieved: 7 June 2012.
  39. "China's largest offshore project now online". Windpowermonthly.com. Retrieved 15 August 2018.
  40. "Xinhuanet: Pilot project paves way for China's offshore wind power boom". Archived from the original on 4 March 2016. Retrieved 18 November 2016.
  41. Longyuan Rudong Intertidal (China) offshore wind farm 4C . Retrieved: 7 June 2012.
  42. "Detailed appraisal of the offshore wind industry in China". The Carbon Trust. May 2014. Retrieved 22 July 2014.
  43. 1 2 "China set for a GW-scale offshore wind market in 2016 - Bloomberg New Energy Finance". Bloomberg New Energy Finance.
  44. "China Leads Global Wind Power Installation in 2016". Brink – The Edge of Risk. Retrieved 27 February 2017.
  45. "China Can Expect a Surge in Offshore Wind Farms, Goldwind Says". Bloomberg.com. 11 January 2017. Retrieved 27 March 2017.
  46. Ambrose, Jillian (5 August 2020). "China poised to power huge growth in global offshore wind energy". The Guardian. Retrieved 5 August 2020.
  47. "China breezes to the lead of offshore wind power race". Nikkei Asia. Retrieved 16 July 2022.
  48. Vetter, David. "China Built More Offshore Wind In 2021 Than Every Other Country Built In 5 Years". Forbes. Retrieved 21 December 2022.
  49. Javier C. Hernández (15 January 2017). "It Can Power a Small Nation. But This Wind Farm in China Is Mostly Idle". The New York Times. Retrieved 21 January 2017.
  50. Xina Xie; Michael Economides (30 July 2009). "Great Leap Forward for China's Wind Energy". Energy Tribune. Archived from the original on 6 August 2009. Retrieved 1 August 2009.
  51. "China installed wind power capacity hits 7 pct of total in 2014". Reuters.com. 12 February 2015. Retrieved 15 August 2018.
  52. Yu, Jie (28 December 2015). "China's west tries to harness more of its wind power". China Dialogue.
  53. "China to Halt New Coal Mine Approvals Amid Pollution Fight". Bloomberg . 29 December 2015.
  54. 何珊. "Lots of wind power wasted: energy administration". China.org.cn. Retrieved 25 April 2016.
  55. "China's Wind Energy Output Dropped In 2014". Cleantechnica.com. 28 January 2015. Retrieved 15 August 2018.
  56. "The East is grey". The Economist . 10 August 2013. Retrieved 2 January 2016.
  57. Shen, Shiran Victoria; Cain, Bruce E.; Hui, Iris (2019). "Public receptivity in China towards wind energy generators: A survey experimental approach". Energy Policy. 129: 619–627. doi:10.1016/j.enpol.2019.02.055.
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