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Plasma assisted cooling of hot surfaces on hypersonic vehicles
Kyle M. Hanquist
, Iain D. Boyd
Research output
:
Contribution to journal
›
Article
›
peer-review
22
Scopus citations
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Dive into the research topics of 'Plasma assisted cooling of hot surfaces on hypersonic vehicles'. Together they form a unique fingerprint.
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Keyphrases
Hypersonic Vehicle
100%
Plasma-assisted
100%
Hot Surface
100%
Electron Transpiration Cooling
100%
Modeling Approach
33%
Blunt Body
16%
Surface Temperature
16%
Surface Properties
16%
Electron Emission
16%
Computational Fluid Dynamics
16%
Management Approach
16%
Radiative Cooling
16%
Thermal Management
16%
Sharp Leading Edge
16%
Thermionic Emission
16%
Multiple Tests
16%
Cooling Power
16%
Approximate Approach
16%
Space Charge Limited Emission
16%
Engineering
Leading Edge
100%
Hypersonic Vehicles
100%
Hot Surface
100%
Boundary Condition
33%
Blunt Body
33%
Computational Fluid Dynamics
33%
Space Charge
33%
Cooling Power
33%
Electron Emission
33%
Material Science
Surface Property
100%
Computational Fluid Dynamics
100%
Physics
Hot Surface
100%
Blunt Body
16%