Analyzing the Use of Gaseous Helium as a Pressurant with Cryogenic Propellants with Thermodynamic Venting System Modelling and Test Data

Advances in cryogenic engineering Pub Date : 2008-03-27 DOI:10.1063/1.2908511

A. Hedayat, S. L. Nelson, L. Hastings, R. Flachbart, D. Vermilion, S. Tucker

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引用次数: 1

Abstract

Cryogens are viable candidate propellants for NASA's Lunar and Mars exploration programs. To provide adequate mass flow to the system's engines and/or prevent feed system cavitation, gaseous helium (GHe) is frequently considered as a pressurant. A Thermodynamic Venting System (TVS) is designed to maintain tank pressure during low gravity operations without propellant resettling. Tests were conducted in the Marshall Space Flight Center (MSFC) Multi-purpose Hydrogen Test Bed (MHTB) to evaluate the effects of GHe pressurant on pressure control performance of a TVS with liquid hydrogen (LH2) and nitrogen (LN2) test liquids. The TVS used comprises a recirculation pump, a Joule-Thomson (J-T) expansion valve, and a parallel flow concentric tube heat exchanger combined with a longitudinal spray bar. A small amount of liquid extracted from the tank recirculation line was passed through the J-T valve and then through the heat exchanger, extracting thermal energy from the bulk liquid and ullage and thereby enabling ...

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利用热力学排气系统模型和试验数据分析气体氦作为低温推进剂的加压作用

对于美国宇航局的月球和火星探测计划来说，低温推进剂是可行的候选推进剂。为了给系统的发动机提供足够的质量流和/或防止进料系统空化，气态氦(GHe)通常被认为是一种压力剂。设计了一个热力学排气系统(TVS)，用于在低重力操作期间保持燃料箱压力，而不需要推进剂重新沉降。在马歇尔航天飞行中心(MSFC)多用途氢气试验台(MHTB)上进行了试验，以评估GHe加压剂对液态氢(LH2)和液态氮(LN2)试验液体TVS压控性能的影响。所使用的TVS包括一个再循环泵、一个焦耳-汤姆逊(J-T)膨胀阀和一个并联同心管热交换器以及一个纵向喷淋棒。从储罐再循环管路中提取的少量液体通过J-T阀，然后通过热交换器，从散装液体和废液中提取热能，从而使…

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Advances in cryogenic engineering

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