编辑: 戴静菡 | 2019-07-08 |
07 籍贯:江西宜春 政治面貌:中共党员 通讯地址:Department of Mechanical Engineering, Virginia Tech, Blacksburg, VA 24061, USA 联系
电话:+1 540-998-9890
邮箱:[email protected] 研究领域 太阳能热电发电/制冷;
太阳能热利用;
建筑环境微气候模拟;
能源回收利用;
宏观/微观传热传质 教育背景 2015.08-2019.04 弗吉尼亚理工大学,\堡,弗吉尼亚州,美国 ? 机械工程,博士(GPA 3.75/4),导师:Lei Zuo 教授 ? 博士论文: Thermoelectric energy harvesting for sensor powering 2013.09-2015.07 华中科技大学 ? 工程热物理,硕士(GPA 3.69/4),导师:明廷臻教授 ? 硕士论文: 层叠式 热电器件的热-应力-发电性能研究 2009.09-2013.07 华中科技大学 ? 能源与动力工程,学士(GPA 3.63/4) 奖励与荣誉 2019.02 弗吉尼亚理工大学 工程院最佳博士研究生提名 2018.12 中国教育部 国家优秀自费留学生奖学金 ($6,000) (http://www.sohu.com/a/291557711_699506) 2018.07 美国机械工程师协会 AMS Best Paper Award (证书+$2,000) 2018.03 弗吉尼亚理工大学 年度研究生提名 2017.03 弗吉尼亚理工大学 工程院最佳博士研究生提名 2014.10 华中科技大学,教育部 国家奖学金 2012.10 华中科技大学 一等奖学金 2011.10 华中科技大学,教育部 国家励志奖学金 发表学术论文于著作 期刊论文 (SCI 论文
18 篇, 引用
245 次,15 篇JCR Q1 区,第一或通讯作者论文
9 篇,均为 Q1 区) 1. 第一作者或通讯作者论文(9 篇SCI 均为 Q1 区,1 篇EI) [1] Tingzhen Ming# , Yongjia Wu# , Wei Liu, SA Sherif. Solar updraft power plant system: A brief review and a case study on a new system with radial partition walls in its collector. Renewable and Sustainable Energy Reviews, 2017. (SCI, IF: 9.184, Q1 区,并列一作) [2] Yongjia Wu, Haifeng Zhang, Lei Zuo. Thermoelectric energy harvesting for the gas turbine sensing and monitoring system. Energy Conversion and Management, 2018, 157: 215-223. (SCI, IF: 6.377, Q1 区) [3] Yongjia Wu, Tingzhen Ming, Xiaohua Li, Tao Pan, Keyuan Peng, Xiaobing Luo. Simulations on temperature gradient and thermal stress of thermoelectric power generator. Energy Conversion and Management, 2014, 88:915-927. (SCI, IF: 6.377, Q1 区) [4] Yongjia Wu, Lei Zuo, Jie Chen, Jackson Klein. A model to analyze the device level performance of thermoelectric generator, Energy, 2016, 115: 591-603. (SCI, IF: 4.968, Q1 区) [5] Yongjia Wu, Jihui Yang, Shikui Chen, Lei Zuo. Thermo-element geometry optimization for high thermoelectric efficiency. Energy,
147 (2018): 672-680. (SCI, IF: 4.968, Q1 区) [6] Tingzhen Ming*, Yongjia Wu*, Chong Peng*, Yongxin Tao. Thermal analysis on a segmented thermoelectric generator. Energy,
80 (2015): 388-399. (SCI, IF: 4.968, Q1 区,共同通讯) Page 2/4 [7] Yongjia Wu, Shifeng Yu, Lei Zuo. Large eddy simulation analysis of the heat transfer enhancement using self- oscillating fluidic oscillators. International Journal of Heat and Mass Transfer,
131 (2019): 463-471. (SCI, IF: 3.891, Q1 区) [8] Yongjia Wu, Jackson Klein, Hanchen Zhou, Lei Zuo. Energy harvesting for wireless communications in nuclear environment. Annals of Nuclear Energy,
126 (2019): 376-388. (SCI, IF: 1.476, Q1 区) [9] Yongjia Wu, Jackson Klein, Hanchen Zhou, Lei Zuo. Thermal and fluid analysis of dry cask storage containers over multiple years of service. Annals of Nuclear Energy, 2018, 112, 132-142. (SCI, IF: 1.476, Q1 区) [10]吴永佳, 明廷臻, 彭柯源, 沈文庆. 高热通量下热电器件热结构耦合数值模拟. 化工学报,2014. 65(SI): 303- 307. (EI) 2. 其他合作论文(9 篇,6 篇Q1) [11]Tingzhen Ming, Tingrui Gong, RK de Richter, Yongjia Wu, Wei Liu. A moist air condensing device for sustainable energy production and water generation. Energy Conversion and Management, 2017. (SCI, IF: 6.377, Q1 区) [12]Jie Chen, Lei Zuo, Yongjia Wu, Jackson Klein. Modeling, experiments and optimization of an on-pipe thermoelectric generator. Energy Conversion and Management, 2016, 122: 298-309. (SCI, IF: 6.377, Q1 区) [13]Tingrui Gong, Yongjia Wu, Lei Gao, Long Zhang, Juntao Lia, Tingzhen Ming. Thermo-mechanical analysis on a compact thermoelectric cooler. Energy. 2019, 172:1211-1224. (SCI, IF: 4.968, Q1 区) [14]Wenqing Shen, Tingzhen Ming, Yan Ding, Yongjia Wu, Renaud K. de_Richter. Numerical analysis on an industrial-scaled solar updraft power plant system with ambient crosswind. Renewable Energy, 2014, 68: 662- 676. (SCI, IF: 4.900, Q1 区) [15]Tingrui Gong, Tingzhen Ming, Xiaoming Huang, RK de Richter, Yongjia Wu, Wei Liu. Numerical analysis on a solar chimney with an inverted U-type cooling tower to mitigate urban air pollution. Solar Energy, 2017, 147: 68-82. (SCI, IF: 4.374, Q1 区) [16]Tingrui Gong, Lei Gao, Yongjia Wu, Long Zhang, Shan Yina, Juntao Li, Tingzhen Ming. Numerical simulation on a compact thermoelectric cooler for the optimized design. Applied Thermal Engineering