王宏，博士，教授，博士生导师。2001年重庆大学动力工程热能动力工程专业本科毕业。2002年进入重庆大学动力工程学院工程热物理专业学习，于2008年6月获得博士学位，被重庆大学作为引进人才留校。2013年12月至2014年12月作为访问学者到美国佛罗里达国际大学（Florida International University）机械与材料学院从事界面现象与热质传递强化领域的研究工作。以课题负责人身份承担了国家自然科学面上基金1项、国家重点研发计划重点专项子课题1项、国家自然科学青年基金项目1项、重庆市自然科学基金面上项目1项、中央高校基本科研业务费面上项目2项以及横向科研项目多项（华为、中国科学院紫金山天文台、绵阳九院等）。并以主研人身份承担“973”项目“钢铁生产过程高效节能基础研究”的课题1项（项目编号：2012CB720400）以及杰出青年基金项目1项，面上项目2项。已在《Applied Energy》、《Applied Thermal Engineering》、《International Journal of Heat and Mass Transfer》、《Energy&Fuels》、《工程热物理学》、《化工学报》、《中国激光》等国内外重要学术刊物和国内外学术会议上发表论文，其中SCI、EI收录数十篇，并申请发明专利10余项，其中授权发明专利5项，实用新型专利5项。《Applied Energy》、《Energy》、《International Journal of Heat and Mass Transfer》、《Applied Thermal Engineering》等国际期刊审稿人。

1）荷电多相流与传热强化

2）仿生智能微纳界面中流体输运及热质传递

3）电润湿现象及技术在微流器件中的应用

4）高热流密度喷雾/电喷雾相变换热强化机理及技术

5）工业过程节能与余热回收及利用

研究生培养：

招收主要研究方向所列各方向的硕士及博士研究生，欢迎加入我们团队！

在研科研项目：

1、电场力作用下液滴撞击过冷环境中发热体表面凝固相变传热机理及特性（国家自然科学基金面上项目，负责）

2、高温液态熔渣高效组合式离心粒化技术（科技部国家重点研发计划（子课题），负责）

3、液态熔渣离心粒化技术（留学人员回国创业创新支持计划，负责）

4、热管（VC）冻融机理（横向，负责）

已结题科研项目：

1、喷雾蒸发过程中近壁场两相流动及蒸发界面液固耦合作用特性（国家自然科学基金青年基金，负责）

2、微毛细结构表面的喷雾相变冷却传热特性研究（重庆市科委自然科学基金计划面上项目，负责）

3、基于物料品质调控的高温熔渣余热回收能质传输机理（科技部国家基础研究规划项目(973计划)，主研）

4、压水堆安全壳喷淋流场及传热特性研究（中央高校基本科研业务费面上项目，负责）

5、单元相变冷却器初样分析（横向，负责）

6、喷雾相变冷却单元件测试（横向，负责）

7、太赫兹望远镜热控方案深化设计（横向，主研）

8、室内小站自散热能力提升技术项目（横向，主研）

1. Lei Zou, Hong Wang*, Xun Zhu, Rong Chen, Yudong Ding, Qiang Liao, Maximum Spread of Droplets on Chemically Striped Surfaces, AIChE Journal, 2019

 

2. B. Ding, H. Wang*, X. Zhu, R. Chen, Q. Liao, Water droplet impact on superhydrophobic surfaces with various inclinations and supercooling degrees, International Journal of Heat and Mass Transfer, 138 (2019) 844-851.

 

3. Y. Tan, H. Wang*, X. Zhu*, Y.W. Lv, X.Y. He, Q. Liao, On the centrifugal granulation characteristics by rotary disk: Effect of outer edge structure, Applied Thermal Engineering, 159 (2019) 11.

 

4. X.Y. He, X. Zhu*, H. Wang*, Y. Tan, B. Ding, Q. Liao, Experimental visualization and theoretical analysis of the dynamic impact behavior of a molten blast furnace slag droplet on different surfaces, Applied Thermal Engineering, 147 (2019) 1-9.

 

5. B. Ding, H. Wang*, X. Zhu, R. Chen, Q. Liao, How supercooled superhydrophobic surfaces affect dynamic behaviors of impacting water droplets?, International Journal of Heat and Mass Transfer, 124 (2018) 1025-1032.

 

6. L. Zou, H. Wang*, X. Zhu, Y. D. Ding, R. Chen, and Q. Liao, "Droplet splitting on chemically striped surface," Colloids and Surfaces a-Physicochemical and Engineering Aspects, vol. 537, pp. 139-148, Jan 2018.

 

7. B. Ding, H. Wang*, X. Zhu*, X.-Y. He, Y. Tan, and Q. Liao, "Prediction on crystallization behaviors of blast furnace slag in a phase change cooling process with corrected optical basicity," Fuel, vol. 223, pp. 360-365, 2018.

 

8. Y. Tan, X. Zhu*, X.-Y. He, B. Ding, H. Wang*, Q. Liao, et al., "Granulation characteristics of molten blast furnace slag by hybrid centrifugal-air blast technique," Powder Technology, vol. 323, pp. 176-185, 2018/01/01/ 2018.

 

9. X. Zhu*, B. Ding, H. Wang*, X. Y. He, Y. Tan, and Q. Liao, "Numerical study on solidification behaviors of a molten slag droplet in the centrifugal granulation and heat recovery system," Applied Thermal Engineering, vol. 130, pp. 1033-1043, Feb 2018.

 

10. J. J. Wu, H. Wang*, X. Zhu, Q. Liao, and K. Li, "Cold experiment of slag centrifugal granulation by rotary atomizer: Effect of atomizer configuration," Applied Thermal Engineering, vol. 111, pp. 1557-1564, Jan 2017.

 

11. H. Wang, B. Ding, X. Zhu*, Y. Tan, X. Y. He, and Q. Liao, "Influence of Al2O3 content on crystallization behaviors of blast furnace slags in directional solidification process," International Journal of Heat and Mass Transfer, vol. 113, pp. 286-294, Oct 2017.

 

12. B. Ding, H. Wang*, X. Zhu*, X. Y. He, Y. Tan, and Q. Liao, "Phase Change Cooling and Crystallization Characteristics of Blast Furnace Slags with Various MgO/Al2O3 Ratios," Energy & Fuels, vol. 31, pp. 10212-10221, Sep 2017.

 

13. H. Wang, B. Ding, X. Y. Liu, X. Zhu*, X. Y. He, and Q. Liao, "Solidification behaviors of a molten blast furnace slag droplet cooled by air," Applied Thermal Engineering, vol. 127, pp. 915-924, Dec 2017.

 

14. B. Ding, H. Wang*, X. Zhu, X.-Y. He, Q. Liao, and Y. Tan, "Crystallization Behaviors of Blast Furnace (BF) Slag in a Phase-Change Cooling Process," Energy & Fuels, 2016/03/07 2016.

 

15. B. Lin, H. Wang*, X. Zhu, Q. Liao, and B. Ding, "Crystallization properties of molten blast furnace slag at different cooling rates," Applied Thermal Engineering, vol. 96, pp. 432-440, 3/5/ 2016.

 

16. H. Wang, J.-J. Wu, X. Zhu*, Q. Liao, and L. Zhao, "Energy–environment–economy evaluations of commercial scale systems for blast furnace slag treatment: Dry slag granulation vs. water quenching," Applied Energy, vol. 171, pp. 314-324, 6/1/ 2016.

 

17. H. Wang*, J. J. Wu, Q. Yang, X. Zhu, and Q. Liao, "Heat transfer enhancement of ammonia spray cooling by surface modification," International Journal of Heat and Mass Transfer, vol. 101, pp. 60-68, Oct 2016.

 

18. Z. B. Wang, R. Chen, H. Wang, Q. Liao, X. Zhu, and S. Z. Li, "An overview of smoothed particle hydrodynamics for simulating multiphase flow," Applied Mathematical Modelling, vol. 40, pp. 9625-9655, Dec 2016.

 

19. J.-J. Wu, H. Wang*, X. Zhu, Q. Liao, and B. Ding, "Centrifugal granulation performance of liquid with various viscosities for heat recovery of blast furnace slag," Applied Thermal Engineering, vol. 89, pp. 494-504, Oct 5 2015.

 

20. B.H. Yang, H. Wang*, X. Zhu, Q. Liao, Y.D. Ding, R. Chen. Heat transfer enhancement of spray cooling with ammonia by microcavity surfaces[J], Applied Thermal Engineering, Volume 50, Issue 1, 10 January 2013, Pages 245–250.

 

21. H. Zhang, H. Wang, X. Zhu, Y.-J. Qiu, K. Li, R. Chen, et al., "A review of waste heat recovery technologies towards molten slag in steel industry," Applied Energy, vol. 112, pp. 956-966, Dec 2013.

 

22. H. Wang, X. Zhu, Q. Liao, and P. Sui, "Numerical Simulation on Coalescence Between a Pair of Drops on Homogeneous Horizontal Surface with Volume-of-Fluid Method," Journal of Superconductivity and Novel Magnetism, vol. 23, pp. 1137-1140, 2010.

 

23. H. Wang, Q. Liao, X. Zhu, J. Li, and X. Tian, "Experimental Studies of Liquid Droplet Coalescence on the Gradient Surface," Journal of Superconductivity and Novel Magnetism, vol. 23, pp. 1165-1168, 2010.

 

24. X. Zhu, H. Wang, Q. Liao, Y. D. Ding, and Y. B. Gu, "Experiments and analysis on self-motion behaviors of liquid droplets on gradient surfaces," Experimental Thermal and Fluid Science, vol. 33, pp. 947-954, 2009.

 

25. Q. Liao, H. Wang, X. Zhu, and M. Li, "Liquid droplet movement on horizontal surface with gradient surface energy," Science in China, Series E: Technological Sciences, vol. 49, pp. 733-741, 2006.

 

26. 周鑫, 邓乐东, 王宏*, 朱恂, 陈蓉, 廖强, 丁玉栋, 圆柱壁面上液滴凝固相变对其运动行为的影响, 化工学报, 70 (2019) 883-891.

 

27. 田野, 张屹然, 王宏*, 朱恂, 陈蓉, 丁玉栋, 廖强, 电场强度对液滴振荡及起跳运动的影响, 工程热物理学报, 40 (2019) 829-833.

 

28 向静, 王宏*, 朱恂, 丁玉栋, 廖强, 陈蓉, 荷叶表面的复刻及微纳结构对疏水性能的影响, 化工学报, 70 (2019) 3543-3550.

 

29 邹磊, 王宏*, 朱恂, 丁玉栋，廖强, 陈蓉. 亲疏水间隔条纹壁面上液滴铺展特性研究, 工程热物理学报, 39 (2018) 555-560.

 

30. 吴君军, 王宏*, 朱恂, 廖强, 丁玉栋, 不同结构粒化器表面高炉渣液膜的流动特性, 钢铁研究学报, (2017) 1-7.

 

31. 范瑶、王宏*、朱恂、黄格永、丁玉栋、廖强. 壁面曲率和过冷度对液滴铺展特性的影响[J]. 化工学报，2016，7： 2709-2717.

 

32. 吴君军，王宏*，朱恂，廖强，李俊，林林. 转盘离心粒化中丝状成粒特性[J]， 化工学报，2015，66 (7):2474-2480.

 

33. 何先琰，王宏*，朱恂，廖强，曹磊，林斌，林林. 铅锡合金熔融颗粒风冷相变换热特性实验研究[J]，工程热物理学报，2015，36 (8):1748-1751.

 

34. 丁斌，王宏*，张挥，朱恂，廖强. 低熔点合金相变换热特性实验研究[J]，工程热物理学报，2014，35(8):1642-1645.

 

学术会议交流：

国际会议

 

1.Ye Tian, Hong Wang*, Xun Zhu, Lei Zou, Rong Chen, Qiang Liao. Characteristics of electrical charging and breakup of water droplets impacting on the electrode surface, the 4th Thermal and Fluids Engineering Conference (TFEC 2019), Las Vegas, NV, USA in April 14-17, 2019.

 

2. Qiyuan Deng, Hong Wang*, Ye Tian, Xun Zhu, Qiang Liao, Rong Chen, Yudong Ding, Icing of Water Droplet Enhanced with the Electrostatic Field. Writing. 16th UK Heat Transfer Conference 2019. East Midlands Conference Centre, NG7 2RJ, Nottingham, University, September 8-9 2019

 

3. Lei Z，Hong W*. NUMERICAL SIMULATION OF DROPLET IMPACTING ON CHEMICALLY STRIPED PATTERNED SUBSTRATE. Proceedings of the 2nd Thermal and Fluid Engineering Conference and 4th International Workshop on Heat Transfer, Las Vegas, NV, USA, 2017.

 

4. Hong Wang*, Le-Dong Deng，Xun Zhu, Lei Zou, Rong Chen and Qiang Liao, NUMERICAL INVESTIGATION ON THE BEHAVIOR OF A WATER DROPLET IMPACT ON THE CYLINDRICAL PIPE, 17th International Topical Meeting on Nuclear Reactor Thermal Hydraulics Xi’an, Shaanxi, China, Sept. 3-8, 2017.

 

5. Lei Cao, Hong Wang*, Xun Zhu*, Qiang Liao, XianYan He, Qian Fu,Numerical Investigation of the Hydrodynamics in a Bubbling Fluidized Bed with Granulated Molten Slag Particles during Heat Recovery Process [C], the 19th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Prague Czech Republic, 27 - 31 August 2016.

 

6. Hua Lib, Xun Zhu*, Hong Wang*, Qian Fu, Lei Cao, Qiang Liao, Segregation Performance of Granulated Blast Furnace Slag Particles with Wide Size Distribution in Spouted Bed for Heat Recovery [C], the 19th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Prague Czech Republic, 27 - 31 August 2016.

 

7. XianYan He, Xun Zhu*, Hong Wang*, Qiang Liao, Lei Cao, Visualization study of Dynamic Behaviours of Molten Blast Furnace Slag Droplet Impacting on Different Material Surfaces [C], the 19th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Prague Czech Republic, 27 - 31 August 2016.

 

8. Hong Wang, Bin Ding, Xiao-Ying Liu, Xun Zhu*, Xian-Yan He, Qiang Liao, Solidification Behaviours of a Molten Blast Furnace Slag Droplet Cooled by Air [C], IHTS & HPCC 2016, Nottingham UK, 26-29 June 2016.

 

 

国内会议

 

1. 田野，张屹然，王宏*，朱恂，陈蓉，丁玉栋，廖强, 电场强度对液滴振荡及起跳运动的影响, 2017 年中国工程热物理学会多相流学术会议

 

2. 张屹然，王宏*，朱恂，陈蓉，邓乐东，丁玉栋，廖强参会文章：超疏水表面微观结构对延迟结冰性能的影响, 2017 年中国工程热物理学会多相流学术会议

 

3. 邹磊、王宏*、朱恂、丁玉栋、廖强、陈蓉. 亲疏水间隔条纹壁面上液滴铺展特性研究[C],工程热物理多相流会议，广州，中国，11月12日，2016（会议，获得口头报告优秀论文奖）.

 

4. 王宏*、曹磊、朱恂、丁玉栋、廖强. 粒化高炉渣颗粒在鼓泡流化床中流动及传热数值研究[C],工程热物理多相流会议，广州，中国，11月12日，2016（会议）.

 

专利

1王宏，王充，朱恂等，基于图像识别技术的熔渣流量测量方法及装置，发明专利，申请号：CN201810940966.1，公开日：2019.01.11

 

2 王宏，代茂林，朱恂等，一种粒化器的温度监测系统，发明专利，申请号：CN201811356120.X，公开日：2019.01.18

 

3. 湿法静电空气除尘装置， 王宏、黄格永等，发明专利，2017.01.04

 

4. 王宏（第一持证人），独立便携式家庭制冷系统双循环一体机，公开时间：2013.02.06，中国，专利号：201210449321.

 

5. 王宏（第一持证人），大功率电子元件便携均温式喷雾冷却循环系统,公开时间: 2012.08.01，中国，专利号：201210092861.

 

6. 王宏（第一持证人），大功率集成LED复合翅片热管散热器，授权时间：2012.07.25，中国，专利号：ZL.2011 2 0525748.5.