Cryogenic Power Conversion for SMES Application in a Liquid Hydrogen Powered Fuel Cell Electric Vehicle

@article{Jin2015CryogenicPC,
  title={Cryogenic Power Conversion for SMES Application in a Liquid Hydrogen Powered Fuel Cell Electric Vehicle},
  author={Jianxun Jin and Xiao Yuan Chen and Liang Wen and Shan Chuan Wang and Ying Xin},
  journal={IEEE Transactions on Applied Superconductivity},
  year={2015},
  volume={25},
  pages={1-11}
}
Cryogenic power conversion for superconducting magnetic energy storage (SMES) application in a liquid hydrogen (LH2) powered fuel cell electric vehicle (FCEV) is investigated. Principle and operation strategy of the SMES-based onboard energy system are presented for various operational models. A typical FCEV system equipped with a 720-kJ SMES device is conceptually designed and theoretically modeled with a bridge-type cryogenic chopper, which consists of four metal-oxide- semiconductor field… CONTINUE READING