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能动学术论坛 第48期

发布日期:2015-05-29 点击数:

永利集团304am登录能源与动力工程学院

能动学术论坛

(第48期)

Title

Research Activities in Michigan Technological University (MTU) Combustion Science Exploration Laboratory

Speaker

Xiucheng (Sheldon) , Zhu

PhD. Candidate, Combustion Science Exploration Laboratory, Michigan Technological University,USA

Time

PM 14:00, Monday, 1 June, 2015(2015.06.01周一14点)

Venue

4 Floor-conference hall of East BLDG(东配楼四层西会议室)

Biography and Presentation Abstract

Dr. Xiucheng Zhu is supervised by Dr. Seong-Yong Lee, the Associate Professor in Department of Mechanical –Engineering Mechanics, Michigan Technological University. Dr. Lee is an experimentalist interested in studying turbulent and spray combustion, including high-pressure diesel and gasoline spray and fundamental turbulent flames. Dr. Lee’s research interests are in the area of energy-thermal-fluid sciences, bio/alternative spray fuel combustion, surrogate fuel chemistry, advanced laser diagnostics, combustion dynamics of instabilities and stabilization, and non-equilibrium plasma-assisted combustion as alternative power conversion. Dr. Lee’s research emphasizes combustion experiment based on applications in energy, environment, and aerospace.

Presentation Topic:

• Research Activities in Michigan Technological University (MTU) Combustion Science Exploration Laboratory (CSEL)

• An Experimental Study of Flame Kernel Formation Processes of Propane-Air Mixture in a Pressurized Combustion Vessel

Description:

Fuel lean and exhaust gas dilution are known to increase the thermal efficiency and reduce the NOx emissions. In this study, experiments are performed to understand the effect of equivalence ratio on flame kernel formation and flame propagation around the spark plug for different low turbulent velocities. A series of experiments are carried out for propane-air mixtures to simulate engine-like conditions. For these experiments, the equivalence ratio of 0.7 is tested with 20 percent mass-based exhaust gas recirculation (EGR). Turbulence is generated by a shrouded fan design in the vicinity of J-spark plug. A closed loop feedback control system is used for the fan to generate a consistent flow field. The flow profile is characterized by using Particle Image Velocimetry (PIV) technique. High-speed schlieren visualization is used for the spark formation and flame propagation.

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