高明
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Gender:Male
Education Level:With Certificate of Graduation for Doctorate Study
Alma Mater:山东大学
Paper Publications
- [211] sunfengzhong , gaoming and 陈学宏. New retrofit method to improve the thermal performance of natural draft wet cooling towers based on the reconstruction of the aerodynamic field. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 132, 671, 2019.
- [212] sunfengzhong , gaoming and 陈学宏. Novel method for improving the cooling performance of natural draft wet cooling towers. Applied thermal engineering, 147, 562, 2019.
- [213] hesuoying , gaoming and sunfengzhong. Wind tunnel test on the flow resistance of U-type water collecting devices for natural draft wet cooling towers. Journal of Wind Engineering and Industrial Aerodynamics, 186, 234, 2019.
- [214] gaoming , sunfengzhong , shiyuetao and 高明. Experimental research and theoretical analysis of anti-fouling characteristics on the surface of Ni-based implanted tube. International Communications in Heat and Mass Transfer, 33, 1115, 2006.
- [215] gaoming , hesuoying , sunfengzhong and 周扬. Experimental study on the drag characteristic and non-uniform fillings for wet cooling towers under thermal performance of crosswind conditions. Applied thermal engineering, 140, 398, 2018.
- [216] gaoming and 高明. 汽轮机同轴驱动给水泵传动装置的研究. 《电站系统工程》, 30, 2014.
- [217] 高明. Numerical Simulation on Heat Transfer Performance Enhancement of Cooling Water Jacket used in Carbon Industry(Journal of enhanced heat transfer. Journal of Enhanced Heat Transfer, 26, 235, 2019.
- [218] 高明. Crosswind influence on cooling capacity in different zones for high level water collecting wet cooling towers based on field test. Journal of Wind Engineering and Industrial Aerodynamics, 190, 134, 2019.
- [219] 高明. Numerical simulation of thermal performance for super large-scale wet cooling tower equipped with an axial fan. International journal of heat and mass transfer, 135, 220, 2019.
- [220] 高明. Experimental study regarding the effects of forced ventilation on the thermal performance for super-large natural draft wet cooling towers. Applied thermal engineering, 155, 40, 2019.