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CFD Modeling of Cryogenic Chilldown in a Complex Channel under Normal and Low Gravity ConditionsFuture NASA architectures have baselined cryogenic propulsion systems as well as cryogenic fluid management to support lunar missions and ultimately to support future missions to Mars. These missions will require chilling hardware down prior to engine restart as well as chilling lines and tanks prior to transferring and refueling these propulsion elements in orbit. In lieu of expensive tests conducted on-orbit, accurate predictive computational models of these chilldown processes can be used to reduce system and propellant mass as well as mission risk.
Document ID
20205004337
Acquisition Source
Glenn Research Center
Document Type
Conference Paper
Authors
Justin Pesich (Glenn Research Center Cleveland, Ohio, United States)
Daniel M Hauser (Glenn Research Center Cleveland, Ohio, United States)
Jason Hartwig (Glenn Research Center Cleveland, Ohio, United States)
Mohammad Kassemi (Case Western Reserve University Cleveland, Ohio, United States)
Kiyoshi Kinefuchi (Japan Aerospace Exploration Agency Tokyo, Japan)
Yutaka Umemura (Japan Aerospace Exploration Agency Tokyo, Japan)
Takehiro Himeno (University of Tokyo)
Date Acquired
July 10, 2020
Subject Category
Spacecraft Propulsion And Power
Meeting Information
Meeting: AIAA Propulsion and Energy Forum
Location: New Orleans, LA
Country: US
Start Date: August 24, 2020
End Date: August 26, 2020
Sponsors: AIAA
Funding Number(s)
WBS: 448887.04.03.02
Distribution Limits
Public
Copyright
Public Use Permitted.
Technical Review
Single Expert
Keywords
CFD
cryogenic chilldown
microgravity
heat transfer

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