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Combustion Science and Technology Volume 180, 2007 - Issue 1
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Original Articles

Vaporization of Liquid Oxygen (LOX) Droplets in Hydrogen and Water Environments under Sub- and Super-Critical Conditions

Patrick Lafon Department of Mechanical and Nuclear Engineering, The Pennsylvania State University, University Park, PA
,
Hua Meng Department of Mechanical and Nuclear Engineering, The Pennsylvania State University, University Park, PAView further author information
,
Vigor Yang* Department of Mechanical and Nuclear Engineering, The Pennsylvania State University, University Park, PACorrespondence[email protected]
&
Mohammed Habiballah Office National d'Etudes et de Recherche Aérospatiale, Châtillon, France
Pages 1-26 | Received 06 Jan 2006, Accepted 23 May 2007, Published online: 14 Dec 2007

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Pierre Gaillard, Vincent Giovangigli & Lionel Matuszewski. (2016) A diffuse interface Lox/hydrogen transcritical flame model. Combustion Theory and Modelling 20:3, pages 486-520.
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Patrick Lafon, Hua Meng, Vigor Yang & Mohammed Habiballah. (2014) Pressure-Coupled Responses of LOX Droplet Vaporization and Combustion in High-Pressure Hydrogen Environments. Combustion Science and Technology 186:9, pages 1191-1208.
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Articles from other publishers (22)

Florian Meyer, Christian Eigenbrod, Volker Wagner, Wolfgang Paa, James C. Hermanson, Shion Ando & Marc Avila. (2022) Oxygen droplet combustion in hydrogen under microgravity conditions. Combustion and Flame 241, pages 112081.
Crossref
Florian Meyer, Christian Eigenbrod, Volker Wagner, Wolfgang Paa, James D. Hall, Michael Zody, Jon Frydman & James C. Hermanson. (2021) Combustion of Single Oxygen Droplets in Hydrogen under Microgravity Conditions. Combustion of Single Oxygen Droplets in Hydrogen under Microgravity Conditions.
XingJian Wang, Patrick Lafon, Dilip Sundaram & Vigor Yang. (2020) Liquid vaporization under thermodynamic phase non-equilibrium condition at the gas-liquid interface. Science China Technological Sciences 63:12, pages 2649-2656.
Crossref
Florian Meyer, Christian Eigenbrod, Volker Wagner, Wolfgang Paa & James C. Hermanson. (2020) Apparatus to investigate liquid oxygen droplet combustion in hydrogen under microgravity conditions. Review of Scientific Instruments 91:10.
Crossref
Shingo Matsuyama, Hiroshi Terashima, Mitsuo Koshi & Akira Umemura. 2020. High-Pressure Flows for Propulsion Applications. High-Pressure Flows for Propulsion Applications 571 630 .
Vincent Giovangigli, Lionel Matuszewski & Pierre Gaillard. 2020. High-Pressure Flows for Propulsion Applications. High-Pressure Flows for Propulsion Applications 485 529 .
M. Leonardi, F. Di Matteo, J. Steelant, F. Nasuti & M. Onofri. (2019) Nonlinear analysis of low-frequency combustion instabilities in liquid rocket engines. Nonlinear analysis of low-frequency combustion instabilities in liquid rocket engines.
Wei Gao, Yuzhen Lin, Xin Hui, Chi Zhang & Quanhong Xu. (2019) Injection characteristics of near critical and supercritical kerosene into quiescent atmospheric environment. Fuel 235, pages 775-781.
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Marco Leonardi, Francesco Nasuti, Francesco Di Matteo & Johan Steelant. (2017) A methodology to study the possible occurrence of chugging in liquid rocket engines during transient start-up. Acta Astronautica 139, pages 344-356.
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Kwassi Anani & Roger Prud’homme. (2016) Theoretical Analysis of Thermal Conduction Effect on Frequency Response of a Perturbed Vaporizing Spherical Droplet. Flow, Turbulence and Combustion 98:2, pages 503-522.
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O. Farzadian & M.D. Niry. (2016) Delocalization of mechanical waves in the ladder chain of DNA with correlated disorder. Physica A: Statistical Mechanics and its Applications 450, pages 95-103.
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Marco Leonardi, Francesco Di Matteo, Johan Steelant, Francesco Nasuti & Marcello Onofri. (2015) System Analysis of Low Frequency Combustion Instabilities in Liquid Rocket Engines. System Analysis of Low Frequency Combustion Instabilities in Liquid Rocket Engines.
Bo Ruan, Hua Meng & Vigor Yang. (2014) Simplification of pyrolytic reaction mechanism and turbulent heat transfer of n-decane at supercritical pressures. International Journal of Heat and Mass Transfer 69, pages 455-463.
Crossref
Hua Meng & Vigor Yang. (2014) Vaporization of two liquid oxygen (LOX) droplets in tandem in convective hydrogen streams at supercritical pressures. International Journal of Heat and Mass Transfer 68, pages 500-508.
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Leilei Wang, Zunjing Chen & Hua Meng. (2013) Numerical study of conjugate heat transfer of cryogenic methane in rectangular engine cooling channels at supercritical pressures. Applied Thermal Engineering 54:1, pages 237-246.
Crossref
Hongfa Huo & Vigor Yang. (2013) Subgrid-Scale Models for Large-Eddy Simulation of Supercritical Combustion. Subgrid-Scale Models for Large-Eddy Simulation of Supercritical Combustion.
Xiaowei Wang, Gouzhou Zhang, Guobiao Cai & Hongfa Huo. (2012) Pressure and Geometry Scaling of Gaseous Hydrogen/Gaseous Oxygen Shear-Coaxial Injectors. Journal of Propulsion and Power 28:6, pages 1368-1378.
Crossref
XiaoWei Wang, GuoBiao Cai & HongFa Huo. (2012) Numerical study of high-pressure GO2/GH2 combustion of a single-element injector. Science China Technological Sciences 55:10, pages 2757-2768.
Crossref
Hua Meng & Vigor Yang. (2012) Clustering effects on liquid oxygen (LOX) droplet vaporization in hydrogen environments at subcritical and supercritical pressures. International Journal of Hydrogen Energy 37:16, pages 11815-11823.
Crossref
Wansheng Nie, Songjiang Feng & Bo He. (2011) Vaporization and Combustion of LOX Droplets at Supercritical Conditions. Vaporization and Combustion of LOX Droplets at Supercritical Conditions.
George C. Hsiao, Hua Meng & Vigor Yang. (2011) Pressure-coupled vaporization response of n-pentane fuel droplet at subcritical and supercritical conditions. Proceedings of the Combustion Institute 33:2, pages 1997-2003.
Crossref
Suresh K. Aggarwal & Alejandro M. Briones. 2010. Handbook of Combustion. Handbook of Combustion 165 212 .

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