《电力自动化设备》

引用本文:	吴传平,周天念,周特军,肖华根,谢瑶,朱鸿章.高压大容量储能功率转换系统的拓扑结构比较[J].电力自动化设备,2024,44(2):26-33.
	WU Chuanping,ZHOU Tiannian,ZHOU Tejun,XIAO Huagen,XIE Yao,ZHU Hongzhang.Comparison of topological structure of high voltage and large capacity energy storage power conversion system[J].Electric Power Automation Equipment,2024,44(2):26-33.

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高压大容量储能功率转换系统的拓扑结构比较
吴传平¹, 周天念¹, 周特军¹, 肖华根², 谢瑶³, 朱鸿章³
1.国网湖南省电力有限公司防灾减灾中心，湖南长沙 410100;2.湖南科技大学信息与电气工程学院，湖南湘潭 411201;3.长沙理工大学电气与信息工程学院，湖南长沙 410114

摘要:

高压大容量储能功率转换系统的主电路是储能电池进行充放电控制的基础，选择合理的功率转换系统主电路拓扑结构直接关系到高压大容量储能系统实际应用的可行性。分析变压器升压型变流器并联结构、H桥链式多电平变流器、全(半)桥模块化多电平变流器的单级式与双级式主电路拓扑结构，对比上述拓扑结构的材料成本、工作可靠性、材料功率损耗和输出电能质量。基于数学模型与仿真分析综合比较单位容量投资成本、工作可靠性、系统损耗和输出电能质量，结果显示H桥链式多电平变流器和半桥模块化多电平变流器更适合构建10 kV兆瓦级高压大容量储能功率转换系统。

关键词: 高压大容量储能系统主电路拓扑结构功率转换

DOI：10.16081/j.epae.202305003

分类号:

基金项目:国家电网有限公司科技项目(5216A02000DW)

Comparison of topological structure of high voltage and large capacity energy storage power conversion system

WU Chuanping¹, ZHOU Tiannian¹, ZHOU Tejun¹, XIAO Huagen², XIE Yao³, ZHU Hongzhang³

1.Disaster Prevention and Reduction Center of State Grid Hunan Electric Power Co.,Ltd.,Changsha 410100, China;2.College of Information and Electrical Engineering, Hunan University of Science and Technology, Xiangtan 411201, China;3.College of Electrical and Information Engineering, Changsha University of Science & Technology, Changsha 410114, China

Abstract:

The main circuit of high voltage and large capacity energy storage power conversion system is the basis of charge and discharge control of energy storage battery. Choosing a reasonable topological structure of the main circuit of the power conversion system is directly related to the feasibility of the practical application of the high voltage and large capacity energy storage system. The single-stage and double-stage main circuit topological structures of transformer booster converter with parallel structure, H-bridge chain multilevel converter, full-bridge modular multilevel converter(MMC) and half-bridge MMC are analyzed, and the material cost, working reliability, material power loss and output power quality of the above topology are compared. Based on the mathematical model and simulative results, the unit capacity investment cost, operating reliability, system loss and output power quality are comprehensively compared. The results show that the H-bridge chain multilevel converter and half-bridge MMC are more suitable for constructing 10 kV MW level high voltage and large capacity energy storage power conversion system.

Key words: high voltage and large capacity energy storage system main circuit topological structure power conversion

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