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Blow-down analysis of helium from a cryogenic Dewar

✍ Scribed by H.J. Khan; Q.Q. Zhang; M. Rhee; O. Figueroa

Publisher
Elsevier Science
Year
1992
Tongue
English
Weight
828 KB
Volume
32
Category
Article
ISSN
0011-2275

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✦ Synopsis

NASA is currently developing space shuttle-based refilling of helium using superfluid helium on-orbit transfer (SHOOT). All the critical components of SHOOT need to be developed through ground-based tests. The helium Dewar is one of these components. The Dewar consists of a vacuum vessel enclosing a superinsulated tank. The space between the vacuum vessel and the liquid tank is considered a common vacuum space. In the event that the vacuum is lost, the heat transfers to the Dewar and the pressure inside the Dewar increases rapidly, resulting in rupture of the Dewar due to excessive pressure. Therefore, an emergency vent line is required for release of helium to prevent the Dewar from rupturing. The study describes a numerical model for blow-down analysis in an emergency. This qualifies the design of the emergency vent line to be adequate for the assumed heat loads to the helium Dewar.

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The R(0) line profile of the 13 CO fundamental band is studied at low concentration in helium from room temperature (296.7 K) to 40 K. A narrowing effect due to molecular confinement (Dicke effect) is observed and analyzed using the Galatry soft collision model. The narrowing parameter is found to b