华北电力大学吴仲华学院

谢剑

时间： 2019-11-21 来源：

姓名：谢剑

技术职务：讲师

办公地点：主楼F811

办公电话：010-61772053

通讯地址：华北电力大学能动学院主楼F811

电子邮件：xiejian90@ncepu.edu.cn

教育背景

2008/9~2012/7 华北电力大学能源动力与机械工程学院热能与动力工程，学士

2012/9~2017/6 华北电力大学可再生能源学院可再生能源与清洁能源，博士

工作履历

2017/7~2019/5 华北电力大学动力工程及工程热物理流动站博士后

2018/10~至今华北电力大学吴仲华学院导师

2019/6~至今华北电力大学能源动力与机械工程学院讲师

学术兼职

l SCI 期刊 International Journal of heat and mass Transfer、Experimental Thermal and Fluid Science等审稿人

研究方向

l 微纳功能表面相界面迁移、调控及相变传热强化

l 太阳能热利用及余热回收

科研项目

1. 国家自然科学基金青年项目，51806065，亲疏水异质表面可控滴状冷凝传热机理及实现方法，2019.012021.12，26万元，主持；

2. 博士后基金面上项目，2017M620712，亲疏水异质表面液滴蒸发特性与机理研究，2018/012019/05，5万元，主持；

3. 国家自然科学基金重点项目，51436004，相变传热装置多尺度协同性及构造，2015/012019/12，350万元，参与

代表性论文专著

1. Jian Xie, Jinliang Xu, Feng Xing, Zixuan Wang, Huan Liu. The phase separation concept condensation heat transfer in horizontal tubes for low-grade energy utilization. Energy, 2014, 69: 787-800.

2. Jian Xie, Jinliang Xu, Xiaotian He, Qi Liu. Large scale generation of micro-droplet array by vapor condensation on mesh screen piece. Scientific Reports, 2017, 7: 39932.

3. Jian Xie, Jinliang Xu, Yu Cheng, Feng Xing, Xiaotian He. Condensation heat transfer of R245fa in tubes with and without lyophilic porous-membrane-tube insert. International journal of Heat and Mass Transfer, 2015, 88: 261-275.

4. Jian Xie, Feng Xing, Jinliang Xu, Huan Liu. Significant heat transfer enhancement for R123 condensation by micromembrane cylinder. Chinse Science Bulletin, 2014, 59 (28): 3676-3685.

5. Jian Xie, Jinliang Xu*, Cong Liang, Qingting She, Mingjia Li. A comprehensive understanding of enhanced condensation heat transfer using phase separation concept. Energy, 2019, 172: 661–674.

6. Jian Xie, Jinliang Xu*, Xiang Li, Huan Liu. Dropwise condensation on superhydrophobic nanostructure surface, Part I: Long-term operation and nanostructure failure. International Journal of Heat and Mass Transfer, 2019, 129: 86–95.

7. Jian Xie, Jinliang Xu*, Wei Shang, Kai Zhang. Dropwise condensation on superhydrophobic nanostructure surface, part II: Mathematical model. International Journal of Heat and Mass Transfer, 2018, 127: 1170–1187.

8. Jian Xie, Jinliang Xu*, Wei Shang, Kai Zhang. Mode selection between sliding and rolling for droplet on inclined surface: Effect of surface wettability. International Journal of Heat and Mass Transfer, 2018, 122: 45–58.

9. Jian Xie, Jinliang Xu*, Qi Liu, Xiang Li. Coupling diffusion welding technique and mesh screen creates heterogeneous metal surface for droplets array. Advance Materal Interfaces. 2017, 4(23): 1700684.

10. Bingguo Zhu, Jinliang Xu*, Xinming Wu, Jian Xie*, Mingjia Li. Supercritical “boiling” number, a new parameter to distinguish two regimes of carbon dioxide heat transfer in tubes. International Journal of Thermal Sciences, 2019, 136: 254–266.

11. Jindou Yuan, Yanbo Wang, Jinliang Xu*, Xianbing Ji, Jian Xie*. Convective dropwise condensation heat transfer in mini-channels with biphilic surface. International Journal of Heat and Mass Transfer, 2019, 134: 69–84.

12. Jinliang Xu, Jian Xie, Xiaotian He, Yu Cheng, Qi, Liu. Water drop impacts on a single-layer of mesh screen membrane: Effect of water hammer pressure and advancing contact angles. Experimental Thermal and Fluid Science, 2017, 82: 83-93.

13. Feng Xing, Jian Xie, Jinliang Xu. Modulated heat transfer tube with mesh cylinder inserted. International Communications in Heat and Mass Transfer, 2014, 56: 15–24.

14. Feng Xing, Jinliang Xu, Jian Xie, Huan Liu, Zixuan Wang, Xiaolin Ma. Froude number dominates condensation heat transfer of R245fa in tubes: Effect of inclination angles. International Journal of Multiphase Flow, 2015, 71: 98–115.

15. Jinliang Xu*, Yuanyuan Chen, Jian Xie. Non-dimensional numerical study of droplet impacting on heterogeneous hydrophilicity/hydrophobicity surface. International Journal of Heat and Mass Transfer, 2018, 127: 1170–1187.

16. Jinliang Xu*, Xin Yan, Guohua Liu, Jian Xie. The critical nanoﬂuid concentration as the crossover between changed and unchanged solar-driven droplet evaporation rates. Nano Energy, 2019, 57: 791–803.

17. 谢剑，程愉，何孝天，刘琪，徐进良. 气体剪切下液滴临界滑动无量纲准则. 工程热物理学报，2017, 38(5): 1033–1038.

18. 谢剑，何孝天，程愉，刘琪，徐进良. 丝网表面液滴撞击行为及气液分离器设计优化.工程热物理学报，2016, 37(6): 1230–1236.

19. 谢剑，徐进良，程愉，何孝天，基于亲憎液表面配合的多尺度高效冷凝管（授权专利），2015102538808.

20. 谢剑，徐进良，程愉，一种固体表面低沸点工质浸润性测试装置及方法（授权专利），2015106180337.

21. 谢剑，徐进良，李享，尚炜，具有图案化浸润性表面的冷凝管制备方法（授权专利）， 2017110936825.

奖励与荣誉

全国工程热物理学会吴仲华优秀学生奖；

工程热物理多相流年会青年学者优秀论文陈学俊奖；

IAAM Award 国际学术奖章获得者；

3ed International Symposium of Fluids & Thermal Engineering 2017 国际会议特邀报告人；

International Conference on Nanomaterials & Nanotechnology 2018 国际会议特邀报告人；

6th micro/nanoscale heat & mass Transfer International Conference 国际会议分会场特邀报告人

招生信息

可独立指导1-2名吴仲华学院本科生，可与低品位能源多相流与传热北京市重点实验室徐进良教授共同指导研究生1名。实验室常年招收热能工程、工程热物理等方向的研究生，具有发电及电力系统背景的学生受欢迎，具有材料及化学背景的学生也可考虑；感兴趣的考生可查看实验室网址,了解研究方向、实验室条件等信息：https://bjmfht.ncepu.edu.cn/。