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
- [131] 郭畅. A Numerical Study on the Distribution and Evolution Characteristics of an Acoustic Field in the Time Domain of a Centrifugal Pump Based on Powell Vortex Sound Theory. Applied Sciences-Basel, 9, 2019.
- [132] 郭畅. The effect of blade outlet angle on the acoustic field distribution characteristics of a centrifugal pump based on Powell vortex sound theory. Applied Acoustics, 155, 297, 2019.
- [133] 郭畅. Investigation on the flow-induced noise propagation mechanism of centrifugal pump based on flow and sound fields synergy concept. PHYSICS OF FLUIDS, 32, 2020.
- [134] 郭畅. Acoustic distribution study inside centrifugal pump impeller under different blade outlet angles using the Powell vortex sound theory. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART C-JOURNAL OF MECHANICAL ENGINEERING SCIENCE, 2020.
- [135] 周扬. Case study: Theoretical calculation model and variable condition analysis research on the water-splashing noise for natural draft wet cooling towers. NOISE CONTROL ENGINEERING JOURNAL, 68, 137, 2020.
- [136] 郭畅. A Review of the Flow-Induced Noise Study for Centrifugal Pumps. Applied Sciences-Basel, 10, 2020.
- [137] 张政清. An exploratory research on performance improvement of super-large natural draft wet cooling tower based on the reconstructed dry-wet hybrid rain zone. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 142, 2019.
- [138] sunfengzhong , zhaoyuanbin , gaoming and 吕冬强. Research on the Air Flow Field Inside the Water Collecting Devices of the Cooling Tower With the WCDs. Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical, 19, 212, 2018.
- [139] hesuoying , sunfengzhong , gaoming and 邹健. Field test on ventilation performance for high level water collecting wet cooling tower under crosswind conditions. Applied Thermal Engineering, 25, 439, 2018.
- [140] gaoming , hesuoying , sunfengzhong and 高明. Thermal performance analysis for high level water collecting wet cooling tower under crosswind conditions. Applied Thermal Engineering, 29, 568, 2018.