《电力自动化设备》

引用本文:	高宇歌,任洲洋,姜云鹏,覃惠玲.电氢耦合系统定碳排运行域分析方法[J].电力自动化设备,2023,43(12):29-36
	GAO Yuge,REN Zhouyang,JIANG Yunpeng,QIN Huiling.Analysis method of committed carbon emission operational region for electricity-hydrogen coupling system[J].Electric Power Automation Equipment,2023,43(12):29-36

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电氢耦合系统定碳排运行域分析方法
高宇歌¹, 任洲洋¹, 姜云鹏¹, 覃惠玲²
1.重庆大学电气工程学院输配电装备及系统安全与新技术国家重点实验室，重庆 400044;2.广西电网有限责任公司，广西南宁 530023

摘要:

精准刻画电氢耦合系统的低碳运行空间，有助于量化并充分挖掘氢能系统灵活运行特性对提高新能源消纳、电力系统安全经济运行水平的积极作用。针对目前缺少基于“域”的碳分析方法等问题，提出电氢耦合系统定碳排运行域(CCEOR-EHS)的概念。探索电氢耦合系统的运行机制，提出CCEOR-EHS建模方法；剖析CCEOR-EHS几何特征，构建电氢耦合系统的低碳评估指标体系，全面评估CCEOR-EHS形状特征与低碳运行水平间的关联关系；提出基于逐点仿真法的CCEOR-EHS边界高效求解方法，可视化电氢耦合系统低碳运行空间。采用IEEE标准系统进行仿真分析，验证所提方法的有效性。结果表明CCEOR-EHS可有效反映系统的低碳运行水平、电氢耦合运行关系等，并能为电力系统的低碳运行提供科学的理论支撑与决策依据。

关键词: 电氢耦合系统运行域低碳运行氢能系统灵活性低碳评估

DOI：10.16081/j.epae.202310028

分类号:

基金项目:国家自然科学基金资助项目(52277080)

Analysis method of committed carbon emission operational region for electricity-hydrogen coupling system

GAO Yuge¹, REN Zhouyang¹, JIANG Yunpeng¹, QIN Huiling²

1.State Key Laboratory of Power Transmission Equipment & System Security and New Technology, School of Electrical Engineering, Chongqing University, Chongqing 400044, China;2.Guangxi Power Grid Co.,Ltd.,Nanning 530023, China

Abstract:

Accurate characterization of the low-carbon operation space for the electricity-hydrogen coupling system helps to quantify and fully exploit the positive effects of the flexible operation characteristics of the hydrogen energy system in improving the renewable energy consumption and the safe and economic operation level of the power system. In view of the lack of domain-based carbon analysis methods, the concept of committed carbon emission operational region for electricity-hydrogen coupling system(CCEOR-EHS) is proposed. The operation mechanism of electricity-hydrogen coupling system is explored and the modeling method of CCEOR-EHS is proposed. The geometric characteristics of CCHOR-EHS are analyzed, the low-carbon assessment index system of electricity-hydrogen coupling system is constructed, and the association relationship between the shape characteristics of CCHOR-EHS and the low-carbon operation level is comprehensively assessed. The IEEE standard system is used for simulation analysis to verify the effectiveness of the proposed method. The results show that the CCEOR-EHS can effectively reflect the low-carbon ope-ration level and the electricity-hydrogen coupling operation relationship of the system, and provide the scientific theoretical support and decision-making basis for the low-carbon operation of the power system.

Key words: electricity-hydrogen coupling system operational region low-carbon operation hydrogen energy system flexibility low-carbon assessment

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