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Song Chen

PhD
Telefon: +46 8 790 79 61
Telefax: +46 8 796 98 50
Email: sonc@mech.kth.se
WWW: Personlig websida
Rum: 2612 Osquars backe 18

Utbildning

Ph.D., Nanyang Technological University, Singapore, Aerospace Engineering (2016)
B.Eng., Nanjing University of Science and Technology, China, Solid Fuel Rockets (2011)

Yrkesmässig historia

2017 - present, Postdoctoral Researcher, KTH Royal Institute of Technology, Sweden
2016 - 2017, Research Fellow, Nanyang Technological University, Singapore

Forskning och yrkesmässig verksamhet

My primary research interests are in the area of aerospace propulsion, fluid mechanics, aerodynamics, shock waves, and combustion. I am particularly interested in high-speed propulsion systems and advanced combustion technologies that can propel aircraft to supersonic (Ma > 1) and hypersonic speeds (Ma > 5). Just imagining how exciting it would be if we can fly to any places on this planet within 2 hours! My long-term research goal is to use theoretical, computational, and experimental methods to study gas turbines, ramjets, scramjets, detonation engines, rockets, and re-entry vehicles, to contribute to the incoming high-speed transportation era.

Publikationer

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ÅrTitel
2017Numerical Study of Dynamic Response of a Jet Diffusion Flame to Standing Waves in a Longitudinal Tube
Applied Thermal Engineering 112 1070-1082 (Publicerad)
2017Numerical Investigation of Pulsed Fuel Injection of the Hyshot II
21st AIAA International Space Planes and Hypersonic Systems and Technology Conference  AIAA 2017-2271  (Publicerad)
2017Numerical Study of a Methane Jet Diffusion Flame in a Longitudinal Tube with a Standing Wave
Energy Procedia 105 1539-1544 (Publicerad)
2017Numerical Study of Dynamic Response of Different Fuels Jet Diffusion Flame to Standing Waves in a Longitudinal Tube
Energy Procedia 105 4842-4847 (Publicerad)
2016Spinning Effects on a Trapped Vortex Combustor
Journal of Propulsion and Power 32 1133-1145 (Publicerad)
2015Numerical Investigation of a Trapped Vortex Miniature Ramjet Combustor
Journal of Propulsion and Power 31 872-882 (Publicerad)
2015Effects of Strong Spinning Motion on Trapped Vortex Combustors
33rd AIAA Applied Aerodynamics Conference AIAA 2015-3299  (Publicerad)
2013Numerical Investigations of Small-Size High Throughflow Speed Combustors with Trapped-Vortex Concept
49th AIAA/ASME/SAE/ASEE Joint Propulsion Conference AIAA 2013-3769  (Publicerad)
2013Studies of a Small-Size Subsonic Trapped Vortex Combustor
2013 International Workshop on Detonation for Propulsion   (Publicerad)