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Kyle Hanquist
Kyle Hanquist
Assistant Professor, University of Arizona
在 email.arizona.edu 的电子邮件经过验证
标题
引用次数
引用次数
年份
Detailed modeling of electron emission for transpiration cooling of hypersonic vehicles
KM Hanquist, K Hara, ID Boyd
Journal of Applied Physics 121 (5), 2017
582017
Test cases for grid-based direct kinetic modeling of plasma flows
K Hara, K Hanquist
Plasma Sources Science and Technology 27 (6), 065004, 2018
472018
Shock-tube measurements of coupled vibration–dissociation time-histories and rate parameters in oxygen and argon mixtures from 5000 K to 10 000 K
JW Streicher, A Krish, RK Hanson, KM Hanquist, RS Chaudhry, ID Boyd
Physics of Fluids 32 (7), 2020
442020
Kinetic and continuum modeling of high-temperature air relaxation
SF Gimelshein, IJ Wysong, AJ Fangman, DA Andrienko, OV Kunova, ...
Journal of Thermophysics and Heat Transfer 36 (4), 870-893, 2022
35*2022
Aerothermodynamic design optimization of hypersonic vehicles
S Eyi, KM Hanquist, ID Boyd
Journal of Thermophysics and Heat Transfer 33 (2), 392-406, 2019
342019
Conceptual analysis of electron transpiration cooling for the leading edges of hypersonic vehicles
H Alkandry, K Hanquist, ID Boyd
11th AIAA/ASME Joint Thermophysics and Heat Transfer Conference, 2674, 2014
322014
Plasma assisted cooling of hot surfaces on hypersonic vehicles
KM Hanquist, ID Boyd
Frontiers in Physics 7, 9, 2019
292019
Evaluation of computational modeling of electron transpiration cooling at high enthalpies
KM Hanquist, H Alkandry, ID Boyd
Journal of Thermophysics and Heat Transfer 31 (2), 283-293, 2017
292017
Assessment of thermochemistry modeling for hypersonic flow over a double cone
ME Holloway, KM Hanquist, ID Boyd
Journal of Thermophysics and Heat Transfer 34 (3), 538-547, 2020
232020
Modeling of electron transpiration cooling for leading edges of hypersonic vehicles
K Hanquist
182017
Comparisons of computations with experiments for electron transpiration cooling at high enthalpies
KM Hanquist, ID Boyd
45th AIAA Thermophysics Conference, 2351, 2015
172015
Detailed Thermochemical Modeling of O2-Ar Mixtures in Reflected Shock Tube Flows
KM Hanquist, RS Chaudhry, ID Boyd, J Streicher, A Krish, R Hanson
AIAA Aviation 2020 Forum, 3275, 2020
152020
Kinetic and continuum modeling of high-temperature oxygen and nitrogen binary mixtures
SF Gimelshein, IJ Wysong, AJ Fangman, DA Andrienko, OV Kunova, ...
Journal of Thermophysics and Heat Transfer 36 (2), 399-418, 2022
142022
Limits for thermionic emission from leading edges of hypersonic vehicles
KM Hanquist, ID Boyd
54th AIAA Aerospace Sciences Meeting, 0507, 2016
142016
Modeling of excited oxygen in post normal shock waves
KM Hanquist, ID Boyd
2018 Joint Thermophysics and Heat Transfer Conference, 3769, 2018
122018
Evaluation of computational models for electron transpiration cooling
NS Campbell, K Hanquist, A Morin, J Meyers, I Boyd
Aerospace 8 (9), 243, 2021
112021
Shape optimization of reentry vehicles to minimize heat loading
S Eyi, KM Hanquist, ID Boyd
Journal of Thermophysics and Heat Transfer 33 (3), 785-796, 2019
112019
Effect of thermochemistry modeling on hypersonic flow over a double cone
ME Holloway, KM Hanquist, ID Boyd
AIAA Scitech 2019 Forum, 2281, 2019
112019
Assessment of high-temperature effects on hypersonic aerothermoelastic analysis using multi-fidelity multi-variate surrogates
A Sadagopan, D Huang, U Duzel, LE Martin, KM Hanquist
AIAA Scitech 2021 Forum, 1610, 2021
102021
Effectiveness of thermionic emission for cooling hypersonic vehicle surfaces
KM Hanquist, ID Boyd
2018 AIAA Aerospace Sciences Meeting, 1714, 2018
92018
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