浙江电力2024,Vol.43Issue(4):1-11,11.DOI:10.19585/j.zjdl.202404001
考虑多类型电解槽差异化特征的分布式电热氢系统优化设计
Optimal design of distributed electric-thermal-hydrogen energy systems considering differentiated features of multi-type electrolyzers
摘要
Abstract
In order to enhance the efficiency of renewable energy utilization and the economic and environmental performance of distributed electric-thermal-hydrogen energy systems,a unified model for multi-type electrolyzers is established considering the strong fluctuation of wind and solar power generation and the differentiated features of multi-type electrolyzers.A method for optimizing the design of electric-thermal-hydrogen energy systems is pro-posed,taking into account the differentiated characteristics of multi-type electrolyzers.This method comprehen-sively utilizes alkaline electrolyzers,proton exchange membrane electrolyzers,and solid oxide electrolyzers,consid-ering their differences in terms of economic viability,flexibility,and efficiency.This approach aims for consump-tion of renewable energy sources with different fluctuation characteristics.Case study results indicate that this method effectively integrates the differentiated features of multi-type electrolyzers,aligning the operational flexibil-ity of various electrolyzers with the fluctuations in wind and solar power outputs.As a result,it comprehensively en-hances the economic and environmental performance of electric-thermal-hydrogen energy systems.关键词
风光强波动性/多类型电解槽/优化设计/电热氢系统Key words
strong fluctuation of wind and solar power/multi-type electrolyzers/optimal design/electric-thermal-hydrogen systems引用本文复制引用
张雪松,陈杨,倪筹帷,陈哲,李志浩,陈健..考虑多类型电解槽差异化特征的分布式电热氢系统优化设计[J].浙江电力,2024,43(4):1-11,11.基金项目
国家重点研发计划课题(2022YFB4202205) (2022YFB4202205)
国网浙江省电力有限公司科技项目(5211DS22000V) (5211DS22000V)
