电网技术2025,Vol.49Issue(10):4038-4043,中插18-中插23,12.DOI:10.13335/j.1000-3673.pst.2025.0681
高惯量储能型交流励磁调相机电磁设计及电磁性能分析
Electromagnetic Design and Electromagnetic Performance Analysis of High-inertia Energy Storage AC-excited Synchronous Condenser
摘要
Abstract
This paper,aiming at the characteristics of flywheel energy storage and AC-excited motors,designs an 11MVA high-inertia energy storage AC-excited synchronous condenser with both strong voltage support and the ability of large slip variable-speed operation.Based on the field-circuit coupling finite element platform,a simulation model of this condenser is established.The electromagnetic performance of the condenser is calculated using this simulation model,which includes drawing no-load and short-circuit characteristic curves,studying load characteristics,calculating reactance parameters,and simulating short-circuit faults.By comparing with the design values,the feasibility of this simulation method is verified.At the same time,it also provides experience and theoretical reference for the optimized design of a high-inertia energy storage AC-excited synchronous condenser.关键词
高惯量储能型调相机/交流励磁/电磁设计/电磁性能/有限元Key words
high-inertia energy storage synchronous condenser/AC excitation/electromagnetic design/electromagnetic performance/finite element分类
信息技术与安全科学引用本文复制引用
葛旭,张强,胡刚,胡金明,李桂芬,郭超,张春莉..高惯量储能型交流励磁调相机电磁设计及电磁性能分析[J].电网技术,2025,49(10):4038-4043,中插18-中插23,12.基金项目
国家重点研发计划项目:"高惯量储能型同步调相机关键技术与装备"(2023YFB2406800).Project Supported by National Key Research & Development Program of China:"Key Technology and Equipment for High Inertia Energy Storage Synchronous Condenser"(2023YFB2406800). (2023YFB2406800)
