郑少飞    讲师, 工程热物理研究中心教师

联系方式：shaofeizheng56@gmail.com

研究方向：

• 滴状冷凝强化换热

• 多组分多相流

• 传热传质

• 强化传热冷却技术

• LBM（格子玻尔兹曼方法）

获得荣誉：

• 郑少飞，第十二届ICCHMT最佳学生论文奖（唯一获得者），2019；

• 郑少飞，Elsevier优秀审稿人，2017；

• 郑少飞，西北工业大学优秀硕士学位论文一等奖，2015；

• 郑少飞，研究生国家奖学金，2014

  
  

承担与参与项目：

• 国家自然科学基金青年基金. 项目名称：超滑/亲水复合结构表面滴状冷凝强化换热研究，52006064，起止日期：2021/01-2023/12（负责人）

• 德国国家科学基金（DFG）. 项目名称：湿空气滴状冷凝强化换热的实验和数值研究，Gr.1060/18，起止日期：2016/01-2019/12（主要参与人）
  

• 国家自然基金. 项目名称：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，11202164，起止日期：2013/01-2015/12（主要参与人）

• 企业横向项目. 项目名称：涡轮叶片内冷结构的热固耦合优化，APTD-XXXX，中国燃气涡轮研究院，起止日期：2012-2014（主要参与人）

论文及专著：

在国内外学术期刊上发表论文20篇，其中SCI检索论文14篇。

期刊论文：(*Corresponding Author)

1. S. 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. (SCI/EI)

2. S. 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. (SCI/EI)

3. S. 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. (SCI/EI)

4. S. 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. (SCI/EI)

5. S. 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. (SCI/EI)

6. S. 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. (SCI/EI)

7. S. 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. (SCI/EI)

8. F. Eimann*, S. 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. (SCI/EI)

9. F. Eimann*, S. 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. (SCI/EI)

10. G. Xie*, S. 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. (SCI/EI)

11. G. Xie*, S. 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. (SCI/EI)

12. G. Xie, S. 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. (SCI/EI)

13. G. Xie, M. Asadi, B. Sunden and S. Zheng, Constructal theory based geometric optimization of wavy channels in the low Reynolds number regime, Journal of Electronic Packaging, 136(3): 031013, 2013. (SCI/EI)

14. Y. Song, S. Zheng, B. Sunden*, G. Xie and H. Zhou, Numerical investigation of turbulent heat transfer enhancement in a ribbed channel with upper-downstream-shaped deflectors, Journal of Enhanced Heat Transfer, 20(5):399-411, 2013. (SCI/EI) 

会议论文：

1. S. Zheng*, F. Eimann, C. Philipp, T. Fieback and U. Gross, The interaction effects between droplets condensing from moist air using a distributed point sink method, Proceedings of the 12th International Conference on Computational Heat, Mass and Momentum Transfer, Rome, Italy, 3-6 September, 2019. (EI、oral presentation)

2. S. Zheng*, F. Eimann, C. Philipp and U. Gross, Single droplet growth model for dropwise condensation considering non-condensable gas, Proceedings of the 16th International Heat Transfer Conference, Beijing, China, 10-15 August, 2018. (Scopus、poster)

3. S Zheng*, F. Eimann, T. Fieback and U. Gross, Numerical study of the effect of forced convective flow on dropwise condensation by thermal LBM simulation, Proceedings of the 11th International Conference on Computational Heat, Mass and Momentum Transfer, Cracow, Poland, 21-24 May, 2018. (EI、oral presentation)

4. S. Zheng*, F. Eimann, T. Fieback and U. Gross, Numerical simulation of dropwise condensation by a hybrid thermal lattice Boltzmann method, Surface Wettability Effects on Phase Change Phenomena workshop, Brighton, UK, 17-18 May, 2018. (Poster)

5. S. Zheng*, F. Eimann, C. Philipp, U. Gross and T. Fieback, Single droplet model for dropwise condensation of moist air and the experimental validation, Thermodynamik-Kolloquium, Dresden, Germany, 27-29 September, 2017. (Poster)

6. F. Eimann*, S. Zheng, C. Philipp and U. Gross, Convective dropwise condensation from humid air, Proceedings of the 16th International Heat Transfer Conference, Beijing, China, 10-15 August, 2018. (Scopus、poster)