姓名：郑少飞

 技术职务：讲师 

 办公地点：主楼G648

 办公电话：18201645627

 通讯地址：华北电力大学能动学院主楼G648

 电子邮件：shaofeizheng@ncepu.edu.cn

教育背景

2008/9~2012/7，河北工程大学，学士

2012/9~2015/4，西北工业大学，硕士

2015/9~2019/12，TU Freiberg(德国)，博士

工作履历

2020/4~至今，华北电力大学，工程热物理研究中心，讲师

学术兼职

1．《Int. J. Heat Mass Transfer》、《Int. J. Therm. Sci.》、《Int. Commun. Heat Mass Transfer》、 《Langmuir》、 《Appl. Therm. Eng.》等多个国际期刊通讯审稿人；

研究方向

冷凝强化换热；润湿动力学与界面现象；传热传质；多相流等

科研项目

1. 国家自然科学基金青年项目，52006064，超滑/亲水复合结构表面滴状冷凝强化换热研究，2021/01-2023/12，主持；

2. 国家自然科学基金重点项目，51936004，微纳液滴动力学特性及操控液滴强化热质传递的基础研究，2020/01-2024/12，参与；

3. 德国国家自然科学基金项目（DFG），GR 1060/18-2，聚合物表面湿空气滴状冷凝强化换热的实验和数值研究，2017/4-2019/12，参与；

4. 国家自然科学基金青年项目，11202164，轻质夹芯主动冷却防护结构的热力耦合机理及优化设计研究，2013/01-2015/12，参与；

代表性论文专著

1. Shaofei Zheng*, F. Eimann, C. Philipp, T. Fieback and U. Gross*, Experimental and modeling investigations of dropwise condensation out of convective humid air flow, International Journal of Heat and Mass Transfer, 151: 119349, 2020.

2. Shaofei Zheng*, F. Eimann, C. Philipp, T. Fieback and U. Gross*, Dropwise condensation in the presence of non-condensable gas: interactions effect of the droplet array using the distributed point sink method, International Journal of Heat and Mass Transfer, 141: 34-47, 2019.

3. Shaofei Zheng*, F. Eimann, C. Philipp, T. Fieback and U. Gross*, Single droplet condensation in presence of non-condensable gas by a multi-component multi-phase thermal lattice Boltzmann model, International Journal of Heat and Mass Transfer, 139: 254-268, 2019.

4. Shaofei Zheng*, F. Eimann, C. Philipp, T. Fieback and U. Gross*, Modeling of heat and mass transfer for dropwise condensation of moist air and the experimental validation, International Journal of Heat and Mass Transfer, 120: 879-894, 2018.

5. Shaofei Zheng*, F. Eimann, T. Fieback, G. Xie and U. Gross*, Numerical investigation of convective dropwise condensation flow by a hybrid thermal lattice Boltzmann method, Applied Thermal Engineering, 145: 590-602, 2018.

6. Shaofei Zheng, Y. Song, G. Xie and B. Sunden*, An assessment of turbulence models for predicting conjugate heat transfer for a turbine vane with internal cooling channels, Heat Transfer Research, 46(11):1039-1064, 2015.

7. Shaofei Zheng, T. Ji, G. Xie* and B. Sunden, On the improvement of the poor heat transfer lee-side regions of square cross-section ribbed channels, Numerical Heat Transfer-Part A, 66(9): 963-989, 2014.

8. F. Eimann, Shaofei Zheng, C. Philipp, A. H. Omranpoor and U. Gross*, Dropwise condensation of humid air - experimental investigation and modelling of the convective heat transfer, International Journal of Heat and Mass Transfer, 154: 119734, 2020.

9. F. Eimann*, Shaofei Zheng, C. Philipp, T. Fieback and U. Gross, Convective dropwise condensation out of humid air inside a horizontal channel-experimental investigation of the condensate heat transfer resistance, International Journal of Heat and Mass Transfer, 127: 448-464, 2018.

10. G. Xie*, Shaofei Zheng and B. Sunden*, Heat transfer and flow characteristics in ribs/deflectors roughened cooling channels with various configuration parameters, Numerical Heat Transfer-Part A, 67(2): 140-169, 2015.

11. G. Xie*, Shaofei Zheng, W. Zhang and B. Sunden*, A numerical study of flow structure and heat transfer in a square channel with ribs combined downstream half-size or same-size ribs, Applied Thermal Engineering, 61(2): 289-300, 2013.

12. G. Xie, Shaofei Zheng, B. Sunden* and W. Zhang, A numerical investigation of flow structure and heat transfer enhancement in square ribbed channels with differently positioned deflectors, Journal of Enhanced Heat Transfer, 20(3):195-212, 2013.

13. Y. Song, Shaofei Zheng, B. Sunden*, G. Xie and H. Zhou, Numerical investigation of flow structure and heat transfer enhancement in square ribbed channels with differently positioned deflectors, Journal of Enhanced Heat Transfer, 20(5):399-411, 2013.

14. D. Lin, L. Zhang, M. Yi, X. Wang, S. Gao, Y. Yang, Shaofei Zheng and X. Wang*, Contact time of double-droplet impacting superhydrophobic surfaces with different macrotextures, Processes, 8(8): 896, 2020.

奖励与荣誉

1．博士学位论文德国评分“magna cum lade”(优秀)，2019年；

2．第十二届International Conference on Computational Heat and Mass Transefer会议唯一最佳学生论文奖，2019年；

3．Elsevier优秀审稿人， 2017年；

招生信息

可独立指导1-2名吴仲华学院本科生，可与工程热物理研究中心主任王晓东教授共同指导研究生1-2名。实验室常年招收工程热物理、热能工程等方向的研究生，欢迎有志于在“工程热物理”以及“热能工程”学科领域实现自我价值的同学报考研究生。要求：品行端正，热爱科学研究事业，数学、英语功底扎实，工作积极主动。