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微重力环境电解制氧系统临界运行条件与供水优化研究

朱凤焦飞飞王飞李森王秀珍王双峰

中国空间科学技术（中英文）2025，Vol.45Issue(2)：42-50,9.

中国空间科学技术（中英文）2025，Vol.45Issue(2)：42-50,9.DOI:10.16708/j.cnki.1000-758X.2025.0021

微重力环境电解制氧系统临界运行条件与供水优化研究

Critical operating conditions and water supply optimization of electrolytic oxygen generation system under microgravity environment

朱凤 ¹焦飞飞 ²王飞 ²李森 ²王秀珍 ³王双峰³

作者信息

1. 中国科学院力学研究所中国科学院微重力重点实验室,北京 100190
2. 中国航天员科研训练中心北京 100094||人因工程全国重点实验室,北京 100094
3. 中国科学院力学研究所中国科学院微重力重点实验室,北京 100190||中国科学院大学工程科学学院,北京 100049
折叠

摘要

Abstract

Stable operation of the electrolytic oxygen system is key to stable continuous oxygen supply inside human spacecraft,and the critical operation condition of the electrolytic system is the basis of safe and stable operation.The critical water flow rate and the critical operating current for the operation of a single cell of an electrolytic oxygen generating core and an electrolytic stack under microgravity conditions are investigated,and a water supply optimization scheme is proposed by improving the local structure of the electrolytic stack.Numerical simulations are carried out using fluid dynamics simulation software,and a gas-liquid mixed two-phase flow model is used to describe the flow process inside the electrolytic core.For both the electrolytic cell unit and the electrolytic stack,there is a limit water flow rate when the operating current is a constant.When the water flow rate is smaller than this critical value,a local water shortage phenomenon occurs inside the core.For a specific water flow rate,there is a critical operating current,and when the current is greater than the critical value,there is a local water shortage inside the core.The uniformity of the flow distribution of the multilayer core can be significantly improved by increasing the diameter of the water supply pipe.With the increase of the diameter,the ratio of the minimum water mass flux to the average mass flux increases linearly and the ratio of the maximum flow rate to the average flow rate decreases linearly.Typically,when the pipe diameter increases by 75％,the ratio of the minimum flow rate to the average flow rate increases by about 39％and the ratio of the maximum flow rate to the average flow rate decreases by about 30％.The uniformity of water distribution is better when the inlet and outlet are on the same side of the electrolysis stack,and the ratio of the maximum to the average water flow can be reduced by more than 30％with the same water flow rate.The research work can provide parameter suggestions for the safe operation of electrolysis tanks for human spacecraft and a basis for the optimal design of the system.

关键词

电解制氧/临界供水量/临界电流/微重力/两相流

Key words

water electrolysis/critical water flow rate/critical working current/microgravity/two-phase flow

分类

特种医学

引用本文复制引用

朱凤,焦飞飞,王飞,李森,王秀珍,王双峰..微重力环境电解制氧系统临界运行条件与供水优化研究[J].中国空间科学技术（中英文）,2025,45(2):42-50,9.

基金项目

人因工程全国重点实验室课题(614222207052206) （614222207052206）

中国空间科学技术（中英文）

OA北大核心

ISSN：1000-758X

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