Showing 28 technologies
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Investigation of Gravity Effects on Electrically Driven Liquid Film Boiling: A sub-orbital Re-usable Launch Vehicle Experiment in preparation of ISS Flight Experiment
PI: Jeffrey Didion, NASA/Goddard Space Flight Center- 0 sRLV
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Technology demonstration of the KRUPS capsule for heat-shield validation
PI: Alexandre Martin, University of Kentucky- 0 Balloon
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Transport Properties of Fluids for Exploration
PI: R. Michael Banish, University of Alabama - Huntsville- 0 sRLV
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Electrowetting Enhanced Dropwise Condensation in the Zero-g Environment
PI: Chung-Lung Chen, University of Missouri - Columbia- 3 Parabolic
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Investigation of Gravity Effects on Electrically Driven Liquid Film Boiling: A Micro-Gravity Flight Campaign in Preparation of ISS Flight Experiment
PI: Jamal Yagoobi, Worcester Polytechnic Institute- 1 Parabolic
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Gravity Effects on Flow Boiling Heat Transfer Using Temperature Sensitive Paints in Preparation for an ISS Flight Experiment
PI: Jungho Kim, University of Maryland - College Park- 1 Parabolic
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Demonstration of Optimal Chilldown Methods for Cryogenic Propellant Tanks in Reduced Gravity
PI: Jacob Chung, University of Florida - Gainesville- 1 Parabolic
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Flow Boiling in Microgap Coolers - Embedded Thermal Management for Space Applications
PI: Franklin Robinson, NASA/Goddard Space Flight Center- 2 sRLV
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Development of a Revolutionary Approach for Efficient Microgravity Transfer Line Chilldown
PI: Jacob Chung, University of Florida - Gainesville- 2 Parabolic
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Zero-G Condensation Droplets and Flow in Phase-Change Loops
PI: Steven Collicott, Purdue University- 1 sRLV
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Ground-Based Study of Gravity Effects on Flow Boiling Heat Transfer in Preparation for an ISS Flight Experiment
PI: Jungho Kim, University of Maryland - College Park- 2 Parabolic
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Low-Gravity Flow Boiling on Modern Textured Surfaces
PI: Steven Collicott, Purdue University- 2 Parabolic
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Adaptable Deployable Entry and Placement Technology (ADEPT)
PI: Paul Wercinski, NASA/Ames Research Center- 1 sRLV
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Resilient Thermal Panel: Microgravity Effects on Isothermality of Structurally Embedded Two Dimensional Heat Pipes
PI: Andrew Williams, Air Force Research Laboratory - Kirtland- 1 Parabolic
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Electric-hydrodynamic Control of Two-Phase Heat Transfer in Microgravity
PI: Boris Khusid, New Jersey Institute of Technology- 0 sRLV
Platform Type
Status
Selection Date
- INTERNAL2020 (1)
- REDDI-F1-18 (Aug 2018) (3)
- REDDI-F1-17B (Apr 2018) (1)
- REDDI-F1-17A (Nov 2017) (2)
- NASA Internal (Oct 2016) (1)
- REDDI-F1-16 (Jul 2016) (3)
- REDDI-F1-14 (Apr 2015) (1)
- AFO6 (Jun 2013) (1)
- AFO5 (Jan 2013) (1)
- NRA-1-APP-A (Jul 2012) (3)
- AFO3 (Mar 2012) (3)
- AFO2 (Oct 2011) (1)
- AFO1 (May 2011) (5)
- NASA Directed (2)