热能工程系
郭嫱
发布日期: 2018 - 05 - 10 访问次数:

  

  

  郭嫱,女,1988年2月生,河北张家口人,博士、讲师。

  教育经历

  (1)2007-2011,中国农业大学,热能与动力工程专业,本科生

  (2)2011-2013,中国农业大学,流体机械及工程专业,硕士研究生

  (3)2013-2017,中国农业大学,水利工程专业,博士研究生

  (4)2017-至今,扬州大学,热能工程系,讲师

  研究领域

  (1)流体机械内部流动分析

  (2)水力机械空化特性及研究

  (3)计算流体动力学分析方法研究

  科研简介

  参加国家自然科学基金项目、教育部高等学校博士学科点专项科研基金项目、完成水力发电设备单位的水轮机优化设计项目等近10项。在《Renewable Energy》、《Ocean Engineering》等高影响力的国际期刊发表论文3篇,多次参加国际学术交流会议,以第一作者发表论文如下:

  (1) Guo Qiang, Zhou Lingjiu*, Wang Zhengwei, Liu Meng, Cheng Huan. Numerical simulation for the tip leakage vortex cavitation. Ocean Engineering, 2018, 151: 71~81. (SCI)

  (2) Guo Qiang, Zhou Lingjiu*, Wang Zhengwei. Numerical evaluation of the clearance geometries effect on the flow field and performance of a hydrofoil. Renewable Energy, 2016, 99: 390~397. (SCI)

  (3) Guo Qiang, Zhou Lingjiu*, Wang Zhengwei. Comparison of BEM-CFD and full rotor geometry simulations for the performance and flow field of a marine current turbine. Renewable Energy. 2015, 75: 640~648. (SCI)

  (4) Guo Qiang, Huang Xianbei*, Yang Fan, Qiu Baoyun. The effect of the clearance geometries on the cavitating vortices near the foil tip, Asian Working Group- IAHR’s Symposium on Hydraulic Machinery and Systems(AWG-IAHR), Beijing, China, 2017.11.16-2017.11.19.

  (5) Guo Qiang, Zhou Lingjiu*, Wang Zhengwei, et al. Effect of the endwall motion on a hydrofoil with various widths of clearance. IOP Conference Series: Earth and Environmental Science, 2016, 49(6): 062021.

  (6) Guo Qiang, Zhou Lingjiu*, Wang Zhengwei, et al. Numerical simulation for the tip leakage vortex cavitation. The International Symposium of Cavitation and Multiphase Flow, Zhenjiang, China, 2016. 10.22-10.25.

  (7) 郭嫱,周凌九*. 轴流式转子叶顶间隙流动分析. 中国水利学会泵及泵站专业委员会2016年学术年会, 北京, 中国, 2016. 11.4-11.6.

  (8) Guo Qiang, Zhou Lingjiu*, Wang Zhengwei. Numerical simulation of cavitation for a horizontal axis marine current turbine. IOP Conference Series: Materials Science and Engineering, 2015, 72(4): 042045.

  (9) Guo Qiang, Zhou Lingjiu*, Wang Zhengwei. Comparison of BEM-CFD and rotor model simulation for predicting the performance of marine current turbines with cascade solidity increased. The 27th IAHR Symposium on Hydraulic Machinery and Systems, Montreal, Canada, 2014. 9.22-9.26.

  (10) Guo Qiang, Zhou Lingjiu*, Xiao Yexiang, et al. Flow field characteristics analysis of a horizontal axis marine current turbine by large eddy simulation. IOP Conference Series: Materials Science and Engineering, 2013, 52(5): 052017.

  联系方式

  地址:江苏省扬州市华扬西路196号知行楼S512

  邮编:225127

  E-mail:znguoqiang@163.com

  备注

  资料统计截止日期2018年4月

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