王昊
近期热点
资料介绍
个人简历
学习及工作经历:2018 UC Davis及MIT,访问学者2013 至今 北京大学工学院,终身制(Tenured)副教授,研究员2007 - 2013 北京大学工学院,特聘研究员2004 - 2007 美国 Purdue University CTRC中心,博士后2004 清华大学热能工程系,工学博士2000 清华大学热能工程系,工学学士主持国家项目:相变与界面,国家自然科学基金优秀青年基金;气液固三相接触线区域热-质传递机理及其调控规律,国家自然科学基金重大计划培育;基于冰晶跨膜控制的高精度肿瘤冷冻治疗技术开发,北京市高校共建基金;低温生物相变微观机理,国家自然科学基金;基于肿瘤磁纳米热疗的细胞层面传热研究,国家自然科学基金;接触线上蒸发液层内的传递过程,国家自然科学基金; 主要贡献通过一系列奇特现象系统揭示沸腾的界面特性,为微重力、微尺度应用提供基础。剖析移动接触线介观结构,为长期争议提供关键证据;建立普适模型解决流体计算瓶颈。大幅提高微纳米蒸发体系模型的预测精度,提出应用改进方法应用于多个领域。建立新型传质体系,大幅降低燃煤、生物质烟气污染治理成本,实现大规模产业应用。Professional Preparation: Tsinghua University (China) Engineering B.Sc. 2000 Tsinghua University (China) Thermal Engineering M.Sc. 2001 Tsinghua University (China) Thermal Engineering Ph.D (Honored) 2004 Appointments: 2007‐ Associate professor of the Department of Energy and Resources Engineering, College of Engineering, Peking University, Beijing, China Director of Laboratory of Heat and Mass Transport, Peking University, Beijing, China 2004‐2007 Post Doctoral Research Associate, CTRC (Cooling Technology Research Center), the School of Mechanical Engineering, Purdue University, IN, USA. (Advised by Professor Suresh V. Garimella) Representative Research Projects (5‐10): 1. Nature Science Foundation of China (NSFC) (No. 91334110): “Heat and mass transfer at triple‐phase contact lines” RMB 750, 000, PI, 2014‐2016 2. Nature Science Foundation of China (NSFC) (No. 51276003): ”Mechanisms of intracellular ice formation” RMB 800, 000,PI, 2013‐2016 3. Nature Science Foundation of China (NSFC) (No. 50706001): ”Evaporative thin liquid films at triple‐phase contact lines” RMB 200, 000, PI, 2008‐2010 4. Nature Science Foundation of China (NSFC) (No. 50876001): ”Heat transfer at cellular level during hypertherapy with nanoparticles” RMB 380, 000, PI, 2009‐2011 5. Beijing City Foundation: “Application of intracellular ice formation in cryotherapy”, RMB 500, 000, PI, 2013‐2014 Patents 1. Heat Dissipation Utilizing Flow of Refrigerant, USA, 8555953 2. Cooling device and cooling method, China, ZL200810041373.8 3. Heat dissipating device and heat dissipating method, China, ZL200810041372.3 4. A solar thermal collector, China, ZL201120364162.5 5. A solar thermal collector, China, ZL201120363571.3 6. A solar thermal collector, China, ZL201110288661.5 Services and others (editorial board, experts committee, conference organizer, invited speaker, etc.): 2012, invited speech in Exxon Mobil, New Jersey, “Micro to macro, heat transfer enhancement in phase‐change systems” 2013, jury in Solar Decathlon (US Department of Energy) 2013, invited lead guest editor of the heat‐transfer special issue of Advances in Materials Science and Engineering 2013, keynote in annual conference of Chinese Society of Engineering Thermophysics, “convex nanobending at a moving contact line”近期论文
Research Gate [1] Wang H*, From contact line structure to wetting dynamics, Langmuir, 2019, doi.org/10.1021/acs.langmuir.9b00294 (invited feature article)[2] Setchi A, Chen Y, Yu J, Wang H*, Structural effects in partially-wetting thin evaporating liquid films near the contact line, International Journal of Heat and Mass Transfer, 2019, 132: 420-430[3] Li Y, Wang H*, Xu H, Wu S, Li X, Yu J, Huang C, Zhang Z, Sun H, Han L, Li M, Cao A, Pan Z, Li Yan*, Material Patterning on Substrates by Manipulation of Fluidic Behavior, National Science Review, 2019, nwz034[4] Mehrizi A, Wang H*, Evaporation-Induced Receding Contact Lines in Partial-Wetting Regime on a Heated Substrate, International Journal of Heat and Mass Transfer, 2018, 124: 279-287[5] Deng Y, Chen L, Liu Q, Wang H*, Nanoscale view of dewetting and coating on partially wetted solids, Journal of Physical Chemistry Letters, 2016, 7(10): 1763−1768[6] Chen L, Yu J P, Wang H*, Convex nanobending at a moving contact line: the missing mesoscopic link in dynamic wetting, ACS Nano, 2014, 8 (11): 11493 - 11498[7] Wang H*, Pan Z H, Garimella S V, Numerical investigation of heat and mass transfer from an evaporating meniscus in a heated open groove, International Journal of Heat and Mass Transfer, 2011, 54: 3015-3023 [8] Wang H, Garimella S V and Murthy J Y. Characteristics of an evaporating thin film in a microchannel. International Journal of Heat and Mass Transfer, 2007, 50: 3933-3942 [9] Wang H, Peng X F*, Wang B X and Lee D J. Jet flow phenomena during nucleate boiling. International Journal of Heat and Mass Transfer, 2002, 45(6): 1359-1363 相关热点