讲座题目:Regulating Flow Boiling in Microchannels
时 间:2019年07月15日(周一)9:30-11:30
地 点:30号楼223会议室
主讲人:Chen Li 教授
邀请人:汤勇教授
欢迎广大师生积极参加!
机械与汽车工程学院
2019年07月10日
讲座摘要:
Two-phase transport is promising in addressing the cooling challenges facing high power microelectronics. However, two-phase transport performance is primarily governed and also limited by the detrimental aspects of complex two-phase flow in conventional channels. Two-phase transport at micro/nanoscale becomes more unpredictable due to the unfavorable size effect. Over the past several decade, extensive progress has been made in understanding two-phase transport on various microchannel designs and configurations. Driven by the intrinsic scientific interest and needs of emerging applications, it is highly desirable to realize a favorable control of complex two-phase flows and then enhance flow boiling in microchannels. Most recently, Dr. Li’s group has devised several novel micro/nanoscale fluidic control methods. These methods allow to regulate flow boiling from bubble dynamics to two-phase flow regimes. Drastic enhancements have been demonstrated without compromising pressure drops.
个人简介:Chen Li教授目前担任微纳米尺度传热传质实验室主任,是ICHMT科学委员会成员,曾担任国际机械期刊Advances in Mechanical Engineering 特邀编辑。主要从事微/纳米级两相传热传质物理现象的预测、控制和建模研究。研究的核心是基于实验中观察到的新的两相传输现象建立基础理论模型,实现微/纳米级两相传热在大功率电子冷却,空间动力系统,航天器热控制和纳米传感器中的应用。主持和参与美国海军研究办公室(ONR)、美国国家科学基金(NSF)、美国国家航空航天(NASA)等重大基金项目10余项,在美国先后获得ASME ICNMM杰出青年研究员奖(2016)和州长青年研究员科学研究优秀奖(2017)。在Nano Energy, International Journal of Heat and Mass Transfer, Applied Thermal Engineering等杂志总发表文章90余篇,被引次数2352(谷歌学术),撰写出版2本专著,h-index(谷歌学术):25。
Chen Li 教授
