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Alexander V. Murray
Alexander V. Murray
The Boeing Company
在 eng.ox.ac.uk 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
An integrated conjugate computational approach for evaluating the aerothermal and thermomechanical performance of double-wall effusion cooled systems
AV Murray, PT Ireland, AJ Rawlinson
Turbo Expo: Power for Land, Sea, and Air 50886, V05BT22A015, 2017
562017
A three-dimensional conjugate approach for analyzing a double-walled effusion-cooled turbine blade
GC Ngetich, AV Murray, PT Ireland, E Romero
Journal of Turbomachinery 141 (1), 011002, 2019
55*2019
High Resolution Experimental and Computational Methods for Modelling Multiple Row Effusion Cooling Performance
AV Murray, PT Ireland, TH Wong, SW Tang, AJ Rawlinson
12th European Conference on Turbomachinery Fluid dynamics & Thermodynamics, 2017
492017
Experimental and computational methods for the evaluation of double-wall, effusion cooling systems
AV Murray, PT Ireland, E Romero
Journal of Turbomachinery 142 (11), 111003, 2020
342020
Development of a steady-state experimental facility for the analysis of double-wall effusion cooling geometries
AV Murray, PT Ireland, E Romero
Journal of Turbomachinery 141 (4), 041008, 2019
332019
Analysis of the thermomechanical stresses in double-wall effusion cooled systems
E Elmukashfi, AV Murray, PT Ireland, ACF Cocks
Journal of Turbomachinery 142 (5), 051002, 2020
252020
Influence of spanwise and streamwise film hole spacing on adiabatic film effectiveness for effusion-cooled gas turbine blades
M Courtis, A Murray, B Coulton, P Ireland, I Mayo
International Journal of Turbomachinery, Propulsion and Power 6 (3), 37, 2021
152021
Mesh sensitivity of RANS simulations on film cooling flow
Y Jiang, A Murray, L di Mare, P Ireland
International Journal of Heat and Mass Transfer 182, 121825, 2022
112022
Development of a steady-state experimental facility for the analysis of double-wall effusion cooling geometries
AV Murray, PT Ireland, E Romero
Turbo Expo: Power for Land, Sea, and Air 51098, V05BT13A007, 2018
72018
An Experimentally Validated Low Order Model of the Thermal Response of Double-Wall Effusion Cooling Systems for HP Turbine Blades
AV Murray, PT Ireland, E Romero
Turbo Expo: Power for Land, Sea, and Air 84164, V07AT15A010, 2020
62020
Advanced gas turbine cooling: double-wall turbine cooling technologies in turbine ngv/blade applications
AV Murray
University of Oxford, 2019
62019
Low order heat & mass flow network modelling for quasi-transpiration cooling systems
M van de Noort, AV Murray, PT Ireland
Turbo Expo: Power for Land, Sea, and Air 86045, V06BT15A012, 2022
52022
An experimentally validated low-order model of the thermal response of double-wall effusion cooling systems for high-pressure turbine blades
AV Murray, PT Ireland, E Romero
Journal of Turbomachinery 143 (11), 111015, 2021
52021
Advanced gas turbine cooling: double-wall turbine cooling technologies in turbine NGV/blade applications. 2019
AV Murray
University of Oxford, 0
5
Coolant jets interaction in effusion cooling system: Experimental and numerical study
Y Jiang, AV Murray, PT Ireland, L di Mare
Journal of Turbomachinery 142 (9), 091007, 2020
32020
A Computational Approach to Aerothermal Analysis of Complex Internal Turbine Cooling Geometries
B Coulton, AV Murray, PT Ireland
Turbo Expo: Power for Land, Sea, and Air 86045, V06BT15A013, 2022
22022
Coolant jets interaction in effusion cooling system: experimental and numerical study
Y Jiang, AV Murray, PT Ireland, L Di Mare
Turbo Expo: Power for Land, Sea, and Air 58646, V05AT12A003, 2019
22019
The Manufacturing and Experimental Validation of a Nickel Superalloy Double-Wall, Effusion Test Specimen
AV Murray, PT Ireland, NR Green, M Wickins, R Hood, J Telisinghe
Turbo Expo: Power for Land, Sea, and Air 87028, V008T17A018, 2023
2023
Double-wall geometry
AV Murray, PT Ireland, E Romero, AJ Rawlinson
US Patent App. 16/720,412, 2020
2020
A Three-Dimensional Conjugate Approach for Analyzing a Double-Walled Effusion-Cooled Turbine Blade
AV Murray, PT Ireland, E Romero
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