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Geometry Dependence of Transpiration Cooling for Hypersonic Systems
AIAA Scitech 2021 Forum
◽
10.2514/6.2021-1519
◽
2021
◽
Author(s):
Jason Connolly
Keyword(s):
Transpiration Cooling
◽
Geometry Dependence
Download Full-text
Related Documents
Cited By
References
Experimental and Numerical Investigations of Supersonic Transpiration Cooling Through Sintered Porous Flat Plates
Proceedings of the 15th International Heat Transfer Conference
◽
10.1615/ihtc15.pmd.009742
◽
2014
◽
Cited By ~ 1
Author(s):
Zheng Huang
◽
Yan-bin Xiong
◽
Yin-hai Zhu
◽
Pei-Xue Jiang
Keyword(s):
Transpiration Cooling
◽
Flat Plates
◽
Numerical Investigations
Download Full-text
NUMERICAL STUDY OF POROUS BLUNT NOSECONE TRANSPIRATION COOLING UNDER SUPERSONIC INCOMING FLOW
Journal of Porous Media
◽
10.1615/jpormedia.v20.i7.30
◽
2017
◽
Vol 20
(7)
◽
pp. 607-618
◽
Cited By ~ 3
Author(s):
Yifei Wu
◽
Zhengping Zou
◽
Chao Fu
◽
Weihao Zhang
Keyword(s):
Numerical Study
◽
Transpiration Cooling
◽
Incoming Flow
Download Full-text
Numerical investigation on the effects of porous cone parameters on liquid transpiration cooling performance
International Journal of Thermal Sciences
◽
10.1016/j.ijthermalsci.2020.106743
◽
2020
◽
pp. 106743
Author(s):
Hao Su
◽
Fei He
◽
Jianhua Wang
◽
Xiaoguang Luo
◽
Bangcheng Ai
Keyword(s):
Numerical Investigation
◽
Transpiration Cooling
◽
Cooling Performance
Download Full-text
Geometry dependence of the acoustic transmission and reflection properties of centrifugal pumps based on an internal lumped parameter model
Applied Acoustics
◽
10.1016/j.apacoust.2020.107874
◽
2021
◽
Vol 176
◽
pp. 107874
Author(s):
Guidong Li
◽
Manuel García-Díaz
◽
Guillermo Laine
◽
Jorge Parrondo
Keyword(s):
Lumped Parameter Model
◽
Acoustic Transmission
◽
Centrifugal Pumps
◽
Lumped Parameter
◽
Geometry Dependence
◽
Transmission And Reflection
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A mesoscopic modelling approach for direct numerical simulations of transition to turbulence in hypersonic flow with transpiration cooling
International Journal of Heat and Fluid Flow
◽
10.1016/j.ijheatfluidflow.2020.108732
◽
2020
◽
Vol 86
◽
pp. 108732
Author(s):
Adriano Cerminara
◽
Ralf Deiterding
◽
Neil Sandham
Keyword(s):
Numerical Simulations
◽
Hypersonic Flow
◽
Direct Numerical Simulations
◽
Transition To Turbulence
◽
Transpiration Cooling
◽
Mesoscopic Modelling
◽
Modelling Approach
Download Full-text
2D and 3D thermoelastic phenomena in double wall transpiration cooling systems for gas turbine blades and hypersonic flight
Aerospace Science and Technology
◽
10.1016/j.ast.2021.106610
◽
2021
◽
Vol 113
◽
pp. 106610
Author(s):
Christos Skamniotis
◽
Alan C.F. Cocks
Keyword(s):
Gas Turbine
◽
Turbine Blades
◽
Transpiration Cooling
◽
Cooling Systems
◽
Gas Turbine Blades
◽
Hypersonic Flight
◽
2D And 3D
◽
Double Wall
Download Full-text
An experimental investigation on transpiration cooling performances using solid hydrogel as coolant
Applied Thermal Engineering
◽
10.1016/j.applthermaleng.2019.113753
◽
2019
◽
Vol 158
◽
pp. 113753
◽
Cited By ~ 2
Author(s):
Kang Qian
◽
Jianhua Wang
◽
Fei He
◽
Yadong Wu
◽
Zihe Zhou
Keyword(s):
Experimental Investigation
◽
Transpiration Cooling
Download Full-text
New experimental results on transpiration cooling for hydrogen/oxygen rocket combustion chambers
10.2514/6.1998-3443
◽
1998
◽
Cited By ~ 4
Author(s):
Karsten Froehkle
◽
Oskar Haidn
◽
Erhan Serbest
Keyword(s):
Experimental Results
◽
Transpiration Cooling
◽
Combustion Chambers
Download Full-text
Geometry dependence of the proton affinities in the electronic ground, excited triplet and ionized doublet states of H2CO and H2COH+
Journal of Molecular Structure THEOCHEM
◽
10.1016/0166-1280(82)80081-x
◽
1982
◽
Vol 89
(3-4)
◽
pp. 235-245
◽
Cited By ~ 1
Author(s):
Otto P. Strausz
◽
Ede Kapuy
◽
Cornelia Kozmutza
◽
Michael A. Robb
◽
Imre G. Csizmadia
Keyword(s):
Proton Affinities
◽
Excited Triplet
◽
Geometry Dependence
◽
Electronic Ground
Download Full-text
Field and geometry dependence of the ac loss in the critical-state model of type-II superconductors
Physical Review B
◽
10.1103/physrevb.45.7996
◽
1992
◽
Vol 45
(14)
◽
pp. 7996-8006
◽
Cited By ~ 13
Author(s):
M. Forsthuber
◽
G. Hilscher
Keyword(s):
Critical State
◽
Ac Loss
◽
Critical State Model
◽
State Model
◽
Type Ii
◽
Type Ii Superconductors
◽
Geometry Dependence
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