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作 者:原宇琦 朱建炳[1] 于斌[1] 顾森东 YUAN Yuqi;ZHU Jianbing;YU Bin;GU Sendong(Science and Technology on Vacuum Technology and Physics Laboratory,Lanzhou Institute of Physics,Lanzhou 730000,China)
机构地区:[1]兰州空间技术物理研究所真空技术与物理重点实验室,兰州730000
出 处:《真空与低温》2024年第2期221-227,共7页Vacuum and Cryogenics
基 金:甘肃省科技重大专项(22ZD6GA011);2023年陇原青年创新创业人才(个人)项目(氙工质电推进贮供系统建模及工作特性研究)。
摘 要:为满足低温推进剂在空间微重力环境中的气液分离要求,针对液氪低温推进剂在轨管理与传输问题,建立筛网式气液分离装置单通道流动压力损失的理论预测模型,获取120 K饱和状态液氪在325×2300荷兰斜纹编织网中流动的泡破点压力。对比分析了不同低温流体、通道宽度、质量流量对过网压降的影响规律,获得了液氪在通道中流动的压降分布,并通过国外液氢过网压降实验数据对模型进行了验证。通过建立液氪单通道流动数值仿真模型,较好地预测了过网压力损失。In order to meet the requirements of gas-liquid separation of cryogenic propellant in space environment,for the problem of cryogenic liquid-krypton propellant acquisition and transmission in orbit,a theoretical prediction model is established to obtain the bubble-point pressure of liquid-krypton in saturated state of 120 K flowing in 325×2300 Dutch twill woven mesh.The influence laws of different cryogenic fluids,channel widths,and mass flow rates on the over-the-network pressure drop are comparatively analyzed.The pressure drop distributions of liquid-krypton flowing in the channel are obtained.The pressure drop distribution of liquid-krypton flow in the channel is obtained,and the model is verified by the pressure drop test data of liquid hydrogen over the network.The numerical simulation model of liquid krypton single-channel flow is established,which can better predict the pressure loss across the network.
分 类 号:TB657[一般工业技术—制冷工程]
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