Gu Mingyan
Business
Anhui University of Technology
China
Biography
Dr. Gu Mingyan is currently working as a Professor in the Department of Energy and Environment, Anhui University of Technology , China. His research interests includes Numerical Simulation of Heat Transfer Process, Numerical Simulation of Two - phase Flow Combustion Process, Theory and Application of Low Pollution Combustion, Numerical Simulation and Application of Pulverized Coal Combustion Process in Blast Furnace. He /she is serving as an editorial member and reviewer of several international reputed journals. Dr. Gu Mingyan is the member of many international affiliations. He/ She has successfully completed his Administrative responsibilities. He /she has authored of many research articles/books related to Numerical Simulation of Heat Transfer Process, Numerical Simulation of Two - phase Flow Combustion Process, Theory and Application of Low Pollution Combustion, Numerical Simulation and Application of Pulverized Coal Combustion Process in Blast Furnace.
Research Interest
Numerical Simulation of Heat Transfer Process, Numerical Simulation of Two - phase Flow Combustion Process, Theory and Application of Low Pollution Combustion, Numerical Simulation and Application of Pulverized Coal Combustion Process in Blast Furnace
Publications
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Fengshan Liu, Ahmet E. Karataş, Ömer L. Gülder, Mingyan Gu , Numerical and experimental study of the influence of CO 2 and N 2 dilution on soot formation in laminar coflow C 2 H 4 / air diffusion flames at touch between 5 and 20 atm, Combustion and Flame, 2015, 162 (5): 2231 - 2247.
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Huaqiang Chu, Mingyan Gu , Jean-Louis Consalvi, Fengshan Liu, Huaichun Zhou. Effects of total pressure on non-gray gas radiation transfer in oxy-fuel combustion using the LBL, SNB, SNBCK, WSGG, and FSCK methods. Journal of Quantitative Spectroscopy & Radiative Transfer, 2016, 172: 24-35.
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Mingyan Gu , Huaqiang Chu, Fengshan Liu. Effects of simultaneous hydrogen enrichment and carbon dioxide dilution of fuel on soot formation in an axisymmetric coflow laminar ethylene / air diffusion flame. Combustion and Flame, 2016, 166: 216-228.
