飞轮
超导磁储能
储能
超导电性
爪
计算机科学
材料科学
电气工程
汽车工程
机械工程
物理
超导磁体
凝聚态物理
工程类
量子力学
功率(物理)
作者
Faxue Lin,Wenfeng Zhang,Haoyuan Chen,Haisi Yang
标识
DOI:10.1088/1361-6668/ae052c
摘要
Abstract The flywheel energy storage system (FESS) is a high-performance physical energy storage device that can be used for peak shaving and frequency regulation in power grids, effectively improving grid operational reliability. To address the heating issues of permanent magnet machines in existing FESS devices, a brushless superconducting-field claw-pole machine (BSCM) is proposed to enhance the energy-to-volume ratio of the FESS and solve the heating problem of permanent magnet machines in FESS. Three topologies of brushless electrically-excited claw-pole machines were designed and their performances analyzed and compared. The results show that the 18/20-pole BSCM exhibits the optimal design characteristics. A prototype of the 18/20-pole machine was further developed and experimentally validated, confirming the accuracy of its simulation design. This machine topology was applied to the FESS, and an integrated design was implemented, addressing the heat dissipation while eliminating the use of brushes. Magneto-thermal coupling simulations indicate that the superconducting-machine-based FESS reaches a long-term temperature rise of 59.184°C with a reasonable temperature distribution. This study provides a feasible technical reference for the application of superconducting machines in FESS.
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