引用本文:梁涛,杨文博,谭建鑫,井延伟,吕梁年.计及效率和启停特性的大规模离网风电制氢多电解槽切换调度策略[J].电力自动化设备,2025,45(2):78-85.
LIANG Tao,YANG Wenbo,TAN Jianxin,JING Yanwei,Lü Liangnian.Switching scheduling strategy of multi-electrolyzer for large-scale off-grid wind power hydrogen production considering efficiency and start-stop characteristics[J].Electric Power Automation Equipment,2025,45(2):78-85.
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计及效率和启停特性的大规模离网风电制氢多电解槽切换调度策略
梁涛1, 杨文博1, 谭建鑫2, 井延伟2, 吕梁年3
1.河北工业大学 人工智能与数据科学学院,天津 300401;2.河北建投新能源有限公司,河北 石家庄 050011;3.金风科技股份有限公司,北京 102600
摘要:
针对大规模离网风电碱性制氢系统中电解槽的宽功率波动适应性及其使用损耗等问题,通过对比分析多台小容量电解槽组合与单台大容量电解槽对宽功率波动的适应能力,建立多台碱性电解槽共用一套气液处理装置(多对一)的离网风电制氢系统,并综合考虑碱性电解槽的效率特性和启停特性,以制氢系统利润最大为目标,提出一种基于鹈鹕优化算法(POA)的离网风电制氢多电解槽切换调度策略。对不同的切换调度策略进行仿真对比,结果表明,多对一离网风电制氢系统采用基于POA的切换调度策略能够更好地适应宽功率波动,同时减少电解槽启停次数,提高电解槽利用率。
关键词:  风电制氢  多电解槽  鹈鹕优化算法  宽功率  切换策略  效率特性  启停特性
DOI:10.16081/j.epae.202409025
分类号:TM73;TK01
基金项目:国家重点研发计划项目(2023YFB3407703);河北省自然科学基金资助项目(F2021202022)
Switching scheduling strategy of multi-electrolyzer for large-scale off-grid wind power hydrogen production considering efficiency and start-stop characteristics
LIANG Tao1, YANG Wenbo1, TAN Jianxin2, JING Yanwei2, Lü Liangnian3
1.School of Artificial Intelligence, Hebei University of Technology, Tianjin 300401, China;2.Hebei Jiantou New Energy Co.,Ltd.,Shijiazhuang 050011, China;3.Goldwind Science & Technology Co.,Ltd.,Beijing 102600, China
Abstract:
Aiming at the wide power fluctuation adaptability and service loss of electrolyzers in the large-scale off-grid wind power alkaline hydrogen production system, the adaptability of multi-small-capacity electrolyzer combination and single large-capacity electrolyzer to wide power fluctuation is compared and analy-zed, and then an off-grid wind power hydrogen production system with multiple alkaline electrolyzers sha-ring a set of gas-liquid treatment device(many-to-one) is established. Comprehensively considering the efficiency and start-stop characteristics of the alkaline electrolyzers, a switching scheduling strategy of multi-electrolyzer for large-scale off-grid wind power hydrogen production based on pelican optimization algorithm(POA) is proposed, with the goal of maximizing the profit of hydrogen production system. The simulation and comparison of different switching scheduling strategies show that, when the switching scheduling strategy based on POA is adopted, the many-to-one off-grid wind power hydrogen production system can better adapt to wide power fluctuation, reduce the start-stop times of electrolyzers and improve the utilization rate of electrolyzers.
Key words:  wind power hydrogen production  multi-electrolyzer  POA  wide range power  switching strategy  efficiency characteristic  start-stop characteristic

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