Optimal operation of electric–freshwater energy system considering load regulation strategy of individual hydrogen electrolyzer

He Wang, Bowen Zhou, Fabin Li, Xingming Ma, Yujie Gao, Hao Yang
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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.
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考虑单个电解氢器负载调节策略的电力-淡水能源系统优化运行
从现有文献来看,仅考虑了氢能-风能/光能新能源的优化运行,忽略了水资源综合利用、负荷控制策略等研究问题。本文在分析海上风电负荷特性的基础上,建立了基于 "风-氢-水-电 "相互作用的电力-淡水能源系统优化运行模型。同时,从电解制氢系统内部负荷调节的角度,提出了与风电波动相匹配的电解制氢单机负荷控制策略。从经济特性、运行特性、容纳情况等方面进行仿真分析,可降低总运行成本约 3.1%,提高电解槽容量利用率,满足沿岸用户用水需求。这表明个性化控制策略和优化运行模式具有优势,对未来实现电网低碳、安全、经济运行具有重要意义。
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