"Design and Development of a Zero-G Vapor Liquid Separator For Use in Cryogenic Fluid Power Systems."

During long coast periods of zero-gravity, storage vessels for the cryogenic liquids proposed for use in some power transmission systems undergo random distribution of the liquid and vapor phases therein. Thus, when heat flow into the vessel causes the vessel pressure to build-up requiring venting t...

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Bibliographic Details
Main Author: DiStefano, John F.
Other Authors: Shiozawa, Shiro
Format: Electronic
Published: University of Alabama in Huntsville Archives
Subjects:
Online Access:http://libarchstor2.uah.edu/digitalcollections/items/show/11047
format Electronic
collection Saturn V Collection
building University of Alabama in Huntsville Archives
publisher University of Alabama in Huntsville Archives
topic Documents
spellingShingle Documents
"Design and Development of a Zero-G Vapor Liquid Separator For Use in Cryogenic Fluid Power Systems."
DiStefano, John F.
fulltopic Documents
Saturn project
Cryogenic rocket propellants
Cryogenic fluids
.
description During long coast periods of zero-gravity, storage vessels for the cryogenic liquids proposed for use in some power transmission systems undergo random distribution of the liquid and vapor phases therein. Thus, when heat flow into the vessel causes the vessel pressure to build-up requiring venting to maintain a safe value, the likelihood of venting the valuable liquid phase, as well as the vapor, results. To preclude this eventuality, various devices for separating the liquid and vapor phases and venting just the vapor have been studied and carried into the experimentation stages.
spelling "Design and Development of a Zero-G Vapor Liquid Separator For Use in Cryogenic Fluid Power Systems."DiStefano, John F.Shiozawa, ShiroSaturn projectCryogenic rocket propellantsCryogenic fluids.During long coast periods of zero-gravity, storage vessels for the cryogenic liquids proposed for use in some power transmission systems undergo random distribution of the liquid and vapor phases therein. Thus, when heat flow into the vessel causes the vessel pressure to build-up requiring venting to maintain a safe value, the likelihood of venting the valuable liquid phase, as well as the vapor, results. To preclude this eventuality, various devices for separating the liquid and vapor phases and venting just the vapor have been studied and carried into the experimentation stages.1965-01-01TextEssaysdesdevzerogvapliq.pdfspc_stnv_000233http://libarchstor2.uah.edu/digitalcollections/items/show/11047http://libarchstor2.uah.edu/digitalcollections/files/original/20/11047/desdevzerogvapliq_071207111927.pdfSaturn V CollectionBox 12, Folder 50University of Alabama in Huntsville Archives, Special Collections, and Digital Initiatives, Huntsville, Alabamaenspc_stnv_000225_000249This material may be protected under U. S. Copyright Law (Title 17, U.S. Code) which governs the making of photocopies or reproductions of copyrighted materials. You may use the digitized material for private study, scholarship, or research. Though the University of Alabama in Huntsville Archives and Special Collections has physical ownership of the material in its collections, in some cases we may not own the copyright to the material. It is the patron's obligation to determine and satisfy copyright restrictions when publishing or otherwise distributing materials found in our collections.
title "Design and Development of a Zero-G Vapor Liquid Separator For Use in Cryogenic Fluid Power Systems."
titleStr "Design and Development of a Zero-G Vapor Liquid Separator For Use in Cryogenic Fluid Power Systems."
author DiStefano, John F.
author_facet DiStefano, John F.
Shiozawa, Shiro
author2 Shiozawa, Shiro
id UAHsaturnv11047
url http://libarchstor2.uah.edu/digitalcollections/items/show/11047
_version_ 1790443372219990016