Journal
CRYOGENICS
Volume 52, Issue 4-6, Pages 283-289Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.cryogenics.2012.01.022
Keywords
Cryogenic fluid management; Liquid oxygen
Categories
Funding
- NASA Exploration Technology Development and Demonstration Program Office
- NASA Glenn Research Center [NNC06BA07B]
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When transferring propellant in space, it is most efficient to transfer single phase liquid from a propellant tank to an engine. In earth's gravity field or under acceleration, propellant transfer is fairly simple. However, in low gravity, withdrawing single-phase fluid becomes a challenge. A variety of propellant management devices (PMDs) are used to ensure single-phase flow. One type of PMD, a liquid acquisition device (LAD) takes advantage of capillary flow and surface tension to acquire liquid. The present work reports on testing with liquid oxygen (LOX) at elevated pressures (and thus temperatures) (maximum pressure 1724 kPa and maximum temperature 122 K) as part of NASA's continuing cryogenic LAD development program. These tests evaluate LAD performance for LOX stored in higher pressure vessels that may be used in propellant systems using pressure fed engines. Test data shows a significant drop in LAD bubble point values at higher liquid temperatures, consistent with lower liquid surface tension at those temperatures. Test data also indicates that there are no first order effects of helium solubility in LOX on LAD bubble point prediction. Test results here extend the range of data for LOX fluid conditions, and provide insight into factors affecting predicting LAD bubble point pressures. (C) 2012 Elsevier Ltd. All rights reserved.
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