计及混合储能的水光互补制氢双层优化调度

张科峰; 王贺佳; 谢丽蓉; 卞一帆; 张琦; 王威; 张凤玉

doi:10.13568/j.cnki.651094.651316.2024.05.01.0001

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计及混合储能的水光互补制氢双层优化调度

新能源与绿色生产专题 | 更新时间：2026-01-21

- 计及混合储能的水光互补制氢双层优化调度
- 计及混合储能的水光互补制氢双层优化调度
- 新疆大学学报（自然科学版中英文） 2025年42卷第2期页码：214-224
- 作者机构：
  
  1. 国家能源集团新疆吉林台水电开发有限公司
  2. 新疆大学可再生能源发电与并网技术教育部工程研究中心
- 作者简介：
- 基金信息：
  
  新疆维吾尔自治区重大科技专项“‘双碳’背景下‘源网荷储’一体化柔性坚强电网关键技术研究”（2022A01001-1）,“能源数据标准化体系研究”（2022A01007-4）;国家自然科学基金“限电工况‘高效发电-风储互补-分级维护’多场景动态融合协同调度研究”（62163034）;新疆维吾尔自治区科技创新领军人才项目“计及矿山安全的源网储荷低碳优化关键技术研究”（2022TSYCLJ0017）
- DOI：10.13568/j.cnki.651094.651316.2024.05.01.0001
  中图分类号： TQ116.2;TM73
- 纸质出版：2025
- 稿件说明：
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[1]张科峰,王贺佳,谢丽蓉,等.计及混合储能的水光互补制氢双层优化调度[J].新疆大学学报(自然科学版中英文),2025,42(02):214-224.
[1]张科峰,王贺佳,谢丽蓉,等.计及混合储能的水光互补制氢双层优化调度[J].新疆大学学报(自然科学版中英文),2025,42(02):214-224. DOI： 10.13568/j.cnki.651094.651316.2024.05.01.0001.

DOI：10.13568/j.cnki.651094.651316.2024.05.01.0001.

摘要

随着国家“双碳”目标的提出，对于新能源的利用方式更加多元化，其中光伏制氢是一种重要的消纳方式．但由于光伏本身的不确定性，采用可灵活调节的水电进行补偿，配合抽水蓄能电站、电储能和氢储能保证电能供应，从而满足电制氢需求．首先，构建水光互补制氢的基本框架，采用拉丁超立方抽样方法得到电氢负荷不确定性需求；然后，建立以投资成本最小为目标函数的容量配置和以运行成本最优为目标函数的优化调度双层模型；最后，通过算例分析，验证水光互补发电制氢的可行性和经济性．

Abstract

With the proposal of the national “dual carbon” goal

the utilization of new energy is more diversified

among which photovoltaic hydrogen production is an important way of consumption. However

due to the uncertainty of photovoltaic itself

one can use of hydropower with flexible adjustment for compensation

with pumped storage power stations

electric energy storage and hydrogen energy storage to ensure the supply of electric energy

so as to meet the demand for electric hydrogen production. The basic framework of hydro-solar hydrogen production is constructed

and the uncertainty demand of electric hydrogen load is obtained by using the Latin hypercube sampling method. Then the capacity allocation with the minimum investment cost as the objective function and the optimal scheduling model with the optimal operating cost as the objective function are established. Finally

the feasibility and economy of hydro-solar complementation power generation for hydrogen production are verified through case analysis.

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references

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