液氧贮箱自生增压输液模拟试验

谢雪梅; 陈国邦; 李琦芬; 孔博; 包锐; 汤珂; 黄永华; 刘飞; 贾正中; 顾仁年; 姚娜; 张天翔

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液氧贮箱自生增压输液模拟试验
谢雪梅^1,2, 陈国邦^1,2, 李琦芬^1,2, 孔博^1,2, 包锐^1,2, 汤珂^1,2, 黄永华^1,2, 刘飞^1,2, 贾正中^1,2, 顾仁年³, 姚娜³, 张天翔³
1.浙江大学制冷与低温研究所;2.浙江杭州310027;3.上海航天技术研究院上海201108

摘要:

以液氮为模拟推进剂,含二氧化碳的氮气为增压气体,进行了液氧煤油火箭的液氧箱自生增压试验研究。通过改变增压气体中二氧化碳的含量,分别模拟了液氧加热气化增压输送和富氧燃气增压输送,同时进行了二氧化碳在液氮中的结晶小试验,通过试验,从原理上验证了含二氧化碳的氮气增压输送液氮方案是可行的,为进一步试验研究及系统设计提供了参考。

关键词: 低温推进剂火箭发动机液氧箱自生增压系统+ 试验

DOI：

分类号:V431

基金项目:

Simulation test of liquid oxygen transportation by self-pressurization method

XIE Xue-mei,CHEN Guo-bang,LI Qi-fen,KONG Bo,BAO Rui,TANG Ke,HUANG Yong-hua,LIU Fei,JIA Zheng-zhong,GU Ren-nian,YAO Na,ZHANG Tian-xiang

1.Inst. of Refrigeration and Cryogenics, Zhejiang Univ., Hangzhou 310027,China;2.Shanghai Inst. of Astronautical Systems Engineering, Shanghai 201108,China

Abstract:

A series of experiments were carried out to investigate cryogenic liquid transfer performance by self-pressurization method for liquid oxygen tank. The working fluid is nitrogen and the pressurizing gas is nitrogen including a small fraction of carbon dioxide, respectively. By varying the content of CO2 in the pressurizing gas, liquid oxygen gasifying pressurization mode and abundant oxygen pressurization mode are simulated. Besides, an experiment of CO2 crystallization in liquid nitrogen is also conducted. The experiments show that the modes of simulation test are feasible. The investigation provides a reference for further study.

Key words: Cryogenic propellant rocket engine Self-pressurization~+ Test