Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer
Abstract In view of the existing literature, only the optimization operation of hydrogen energy–wind/light new energy is considered, and the research problems such as comprehensive utilization of water resources and load control strategies are ignored. Based on the analysis of load characteristics o...
Main Authors: | , , , , , |
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Format: | Article |
Language: | English |
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Wiley
2024-01-01
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Series: | The Journal of Engineering |
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Online Access: | https://doi.org/10.1049/tje2.12345 |
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author | He Wang Bowen Zhou Fabin Li Xingming Ma Yujie Gao Hao Yang |
author_facet | He Wang Bowen Zhou Fabin Li Xingming Ma Yujie Gao Hao Yang |
author_sort | He Wang |
collection | DOAJ |
description | Abstract In view of the existing literature, only the optimization operation of hydrogen energy–wind/light new energy is considered, and the research problems such as comprehensive utilization of water resources and load control strategies are ignored. Based on the analysis of load characteristics of offshore wind power, this paper has established an optimal operation model of power‐fresh water energy system based on “wind‐hydrogen‐water‐electricity” interaction. Meanwhile, an electrolytic hydrogen individual load control strategy is proposed to match wind power fluctuations from the perspective of internal load regulation of electrolytic hydrogen system. From the economic characteristics, operation characteristics, accommodation situation and other simulation analysis, it can reduce the total operating cost by about 3.1%, improve the utilization rate of electrolytic cell capacity, and meet the water demand of coastal users. It shows that the individual control strategy and optimal operation model have advantages, which is of great significance for realizing low‐carbon, safe, and economical operation of power grid in the future. |
first_indexed | 2024-03-08T11:50:04Z |
format | Article |
id | doaj.art-1c3239f8bd4e4da9b2d4ac0e2b9fc325 |
institution | Directory Open Access Journal |
issn | 2051-3305 |
language | English |
last_indexed | 2024-03-08T11:50:04Z |
publishDate | 2024-01-01 |
publisher | Wiley |
record_format | Article |
series | The Journal of Engineering |
spelling | doaj.art-1c3239f8bd4e4da9b2d4ac0e2b9fc3252024-01-24T13:52:30ZengWileyThe Journal of Engineering2051-33052024-01-0120241n/an/a10.1049/tje2.12345Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzerHe Wang0Bowen Zhou1Fabin Li2Xingming Ma3Yujie Gao4Hao Yang5Daqing Power Supply Company State Grid Heilongjiang Provincial Electric Power Co., Ltd. Daqing ChinaCollege of Information Science and Engineering Northeastern University Shenyang ChinaDaqing Power Supply Company State Grid Heilongjiang Provincial Electric Power Co., Ltd. Daqing ChinaDaqing Power Supply Company State Grid Heilongjiang Provincial Electric Power Co., Ltd. Daqing ChinaCollege of Information Science and Engineering Northeastern University Shenyang ChinaCollege of Information Science and Engineering Northeastern University Shenyang ChinaAbstract In view of the existing literature, only the optimization operation of hydrogen energy–wind/light new energy is considered, and the research problems such as comprehensive utilization of water resources and load control strategies are ignored. Based on the analysis of load characteristics of offshore wind power, this paper has established an optimal operation model of power‐fresh water energy system based on “wind‐hydrogen‐water‐electricity” interaction. Meanwhile, an electrolytic hydrogen individual load control strategy is proposed to match wind power fluctuations from the perspective of internal load regulation of electrolytic hydrogen system. From the economic characteristics, operation characteristics, accommodation situation and other simulation analysis, it can reduce the total operating cost by about 3.1%, improve the utilization rate of electrolytic cell capacity, and meet the water demand of coastal users. It shows that the individual control strategy and optimal operation model have advantages, which is of great significance for realizing low‐carbon, safe, and economical operation of power grid in the future.https://doi.org/10.1049/tje2.12345clean energydistributed generationelectrical and electronic engineeringenergy storagepower system operationpower system optimization |
spellingShingle | He Wang Bowen Zhou Fabin Li Xingming Ma Yujie Gao Hao Yang Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer The Journal of Engineering clean energy distributed generation electrical and electronic engineering energy storage power system operation power system optimization |
title | Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer |
title_full | Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer |
title_fullStr | Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer |
title_full_unstemmed | Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer |
title_short | Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer |
title_sort | optimal operation of electric freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer |
topic | clean energy distributed generation electrical and electronic engineering energy storage power system operation power system optimization |
url | https://doi.org/10.1049/tje2.12345 |
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