Liquid Acquisition Devices for Advanced In-Space Cryogenic Propulsion Systems

Dr. Jason Hartwig is a research aerospace engineer in the Propellants and Propulsion branch at the NASA Glenn Research Center in Cleveland, OH and is the lead technologist for cryogenic propellant transfer for the Agency. Jason has a BS in Physics, an MS in Mechanical Engineering, and a Doctorate in Aerospace Engineering from Case Western Reserve University. He’s been the PI on multiple cryogenic propulsion test programs at Glenn (CFM, PCAD, CPST, eCryo). Jason has 10 years of experience in the areas of cryogenic engineering, laser diagnostics, combustion, and propulsion. Jason’s areas of expertise include design analysis and testing of cryogenic propellant management devices, line and tank chill and fill techniques, two phase cryogenic flow boiling and fluid mechanics, tank pressurization systems, and passive multi-layer insulation systems. Dr. Hartwig is also actively involved at NASA and Case in training and mentoring students through various programs.

Chapter 1: IntroductionChapter 2: Background and Historical ReviewChapter 3: Influential Factors and Physics-Based Modeling of Liquid Acquisition DevicesChapter 4: Room Temperature Liquid Acquisition Device Performance ExperimentsChapter 5: Parametric Analysis on the Liquid Hydrogen and Nitrogen Bubble Point PressureChapter 6: High Pressure Liquid Oxygen Bubble Point ExperimentsChapter 7: High Pressure Liquid Methane Bubble Point ExperimentsChapter 8: Warm Pressurant Gas Effects on the Static Bubble Point Pressure for Cryogenic Liquid Acquisition DevicesChapter 9: Full Scale Liquid Acquisition Device Outflow Tests in Liquid HydrogenChapter 10: The Bubble Point Pressure Model for Cryogenic PropellantsChapter 11: The Reseal Pressure Model for Cryogenic PropellantsChapter 12: Analytical Model for Steady Flow through a Porous Liquid Acquisition Device ChannelChapter 13: Optimal Liquid Acquisition Device Screen Weave for a Liquid Hydrogen Fuel DepotChapter 14: Optimal Propellant Management Device for a Small Scale Liquid Hydrogen Propellant TankChapter 15: ConclusionsAppendices