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液氢储罐蒸气冷却屏结构设计及绝热性能仿真预示

杨豪泽 刘乐 赵武 王磊 李翠

制冷学报2026,Vol.47Issue(3):43-52,10.
制冷学报2026,Vol.47Issue(3):43-52,10.DOI:10.12465/issn.0253-4339.20250506001

液氢储罐蒸气冷却屏结构设计及绝热性能仿真预示

Structural Design and Thermal Insulation Performance Simulation of Vapor-Cooled Shields for Liquid Hydrogen Storage Tank

杨豪泽 1刘乐 2赵武 2王磊 1李翠1

作者信息

  • 1. 西安交通大学制冷与低温工程系 西安 710049
  • 2. 西安航天科技工业有限公司 西安 710100||航天推进技术研究院 西安 710100
  • 折叠

摘要

Abstract

To provide accurate design guidance for multilayer insulation(MLI)combined with vapor-cooled shield(VCS)structures in liquid hydrogen storage tanks,a three-dimensional steady-state MLI/VCS model was established.The temperature distribution within the VCS was analyzed for parallel and spiral arrangements.The effects of VCS tube diameter,number/length,radiation shield thickness,and vapor mass flow rate on the thermal insulation performance of the tank were systematically investigated.Comparative analysis of the thermal insulation performances of the two arrangements was conducted.The results show that for the parallel arrangement,increasing the tube diameter,number of tubes,and mass flow rate improved the insulation performance of the tank.For the spiral arrangement,increasing the tube diameter and flow rate achieved the same effects as those observed for the parallel arrangement.However,the effect of tube length on insulation performance depends on the vapor mass flow rate.Radiation shield thickness had a minor impact on insulation performance.The relative superiority of the two VCS pipe configurations in terms of insulation performance is influenced by the venting vapor mass flow rate.An appropriate VCS pipe arrangement should be selected for practical engineering applications,based on the venting method and capacity.

关键词

多层绝热/蒸气冷却屏/液氢储罐/三维模型/绝热性能

Key words

multilayer insulation/vapor-cooled shield/liquid hydrogen tank/three-dimensional model/thermal insulation performance

分类

能源科技

引用本文复制引用

杨豪泽,刘乐,赵武,王磊,李翠..液氢储罐蒸气冷却屏结构设计及绝热性能仿真预示[J].制冷学报,2026,47(3):43-52,10.

基金项目

国家重点研发计划课题(2024YFB4006904)资助项目.(The project was supported by the National Key Research and Development Program of China(No.2024YFB4006904).) (2024YFB4006904)

制冷学报

0253-4339

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