| Citation: |
Liang Wang, Li-qiong Jia, Geng Xie, Xi-jie Chen, Yang Liu, 2024. Carbon reduction: Contribution of photovoltaic power and practice in China, China Geology, 7, 370-375. doi: 10.31035/cg2024078
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Carbon reduction: Contribution of photovoltaic power and practice in China
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References
Institute for Carbon Neutrality, Tsinghua University. 2024. Technology outlook on wind and solar power toward China’s carbon neutrality goal, 1‒133 (in Chinese). National Energy Administration. 2024. The Status of Photovoltaic Power Construction in 2023. http://www.nea.gov.cn/2024-02/28/c_1310765696.htm. Wang Y, Chao QC, Zhao L, Chang R. 2022. Assessment of wind and photovoltaic power potential in China. Carbon Neutrality, 1, 1–15. Wind Energy and Solar Energy Center of China Meteorological Administration. 2024. China Wind and Solar Energy Resource Annual Bulletin (2023), 1‒23 (in Chinese). Zhang L. 2024. Photograph of photovoltaic (solar thermal) power station in Delinha City, Haixi Mongolian and Tibetan Autonomous Prefecture, Qinghai Province. Xinhua, 24 Apr. 2024. http://news.cnhubei.com/content/2024-04/24/content_17786036.html. Accessed [2024.04.24]. Photograph. -
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Liang Wang, Li-qiong Jia, Geng Xie, Xi-jie Chen, Yang Liu, 2024. Carbon reduction: Contribution of photovoltaic power and practice in China, China Geology, 7, 370-375. doi: 10.31035/cg2024078
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Figure 1.
Spatial distribution of the annual global horizontal irradiance across the land of China in 2023 (modified from Wind Energy and Solar Energy Center of China Meteorological Administration, 2024).
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Figure 2.
China’s construction situation of photovoltaic power generation in 2023 (data from National Energy Administration, 2024). XPCC‒Xinjiang Production and Construction Corps.
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Figure 3.
Photograph of PV (solar thermal) power station in Delinha City, Haixi Mongolian and Tibetan Autonomous Prefecture, Qinghai Province (after Zhang L, 2024)