Research on hydro-photovoltaic complementary analysis of Yangfanggou hydropower station on Yalong River
Hydropower and photovoltaic power are widely used as clean energy sources around the world. Hydro-Photovoltaic complementary is precisely the use of the regulation performance of hydropower stations and the peak regulation performance of PV electric fields to improve the system’s power generation ef...
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Frontiers Media S.A.
2024-03-01
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Series: | Frontiers in Energy Research |
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Online Access: | https://www.frontiersin.org/articles/10.3389/fenrg.2024.1361214/full |
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author | Bin He Weixuan Yin Guohua Liang Lei Jiang |
author_facet | Bin He Weixuan Yin Guohua Liang Lei Jiang |
author_sort | Bin He |
collection | DOAJ |
description | Hydropower and photovoltaic power are widely used as clean energy sources around the world. Hydro-Photovoltaic complementary is precisely the use of the regulation performance of hydropower stations and the peak regulation performance of PV electric fields to improve the system’s power generation efficiency. The Yalong River basin as one of China’s clean energy bases, is rich in water and light resources. And now its midstream Yangfanggou hydropower station has just been completed, and the relevant PV electric field is in the construction planning stage. It is worth studying how to effectively utilize its hydropower and PV output resources. Therefore, Yangfanggou hydropower station and its PV electric field are taken as the research objects in this paper. The possibility of hydro-photovoltaic complementarity is analyzed within the year and day respectively. Then, a short-term scheduling model of hydro-photovoltaic complementarity is constructed according to the principle, and its operation mode and effect are optimized using the genetic algorithm NSGA-II. The results indicate that the annual power generation of the system is increased by about 1.4 billion kWh from the original hydropower through the hydro-photovoltaic complementary, and the annual guaranteed output is also increased with a large increase degree at the same time. |
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institution | Directory Open Access Journal |
issn | 2296-598X |
language | English |
last_indexed | 2024-03-07T14:31:26Z |
publishDate | 2024-03-01 |
publisher | Frontiers Media S.A. |
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series | Frontiers in Energy Research |
spelling | doaj.art-d3b07eab38e8467e8c945ca14601f5cb2024-03-06T05:06:05ZengFrontiers Media S.A.Frontiers in Energy Research2296-598X2024-03-011210.3389/fenrg.2024.13612141361214Research on hydro-photovoltaic complementary analysis of Yangfanggou hydropower station on Yalong RiverBin HeWeixuan YinGuohua LiangLei JiangHydropower and photovoltaic power are widely used as clean energy sources around the world. Hydro-Photovoltaic complementary is precisely the use of the regulation performance of hydropower stations and the peak regulation performance of PV electric fields to improve the system’s power generation efficiency. The Yalong River basin as one of China’s clean energy bases, is rich in water and light resources. And now its midstream Yangfanggou hydropower station has just been completed, and the relevant PV electric field is in the construction planning stage. It is worth studying how to effectively utilize its hydropower and PV output resources. Therefore, Yangfanggou hydropower station and its PV electric field are taken as the research objects in this paper. The possibility of hydro-photovoltaic complementarity is analyzed within the year and day respectively. Then, a short-term scheduling model of hydro-photovoltaic complementarity is constructed according to the principle, and its operation mode and effect are optimized using the genetic algorithm NSGA-II. The results indicate that the annual power generation of the system is increased by about 1.4 billion kWh from the original hydropower through the hydro-photovoltaic complementary, and the annual guaranteed output is also increased with a large increase degree at the same time.https://www.frontiersin.org/articles/10.3389/fenrg.2024.1361214/fullhydropowerPVhydro-photovoltaic complementaryNSGA-IIguaranteed outputtypical year |
spellingShingle | Bin He Weixuan Yin Guohua Liang Lei Jiang Research on hydro-photovoltaic complementary analysis of Yangfanggou hydropower station on Yalong River Frontiers in Energy Research hydropower PV hydro-photovoltaic complementary NSGA-II guaranteed output typical year |
title | Research on hydro-photovoltaic complementary analysis of Yangfanggou hydropower station on Yalong River |
title_full | Research on hydro-photovoltaic complementary analysis of Yangfanggou hydropower station on Yalong River |
title_fullStr | Research on hydro-photovoltaic complementary analysis of Yangfanggou hydropower station on Yalong River |
title_full_unstemmed | Research on hydro-photovoltaic complementary analysis of Yangfanggou hydropower station on Yalong River |
title_short | Research on hydro-photovoltaic complementary analysis of Yangfanggou hydropower station on Yalong River |
title_sort | research on hydro photovoltaic complementary analysis of yangfanggou hydropower station on yalong river |
topic | hydropower PV hydro-photovoltaic complementary NSGA-II guaranteed output typical year |
url | https://www.frontiersin.org/articles/10.3389/fenrg.2024.1361214/full |
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