刘振宇
所在系所:工程热物理研究所
办公电话:-
电子邮件:Zhenyu.Liu@sjtu.edu.cn
通讯地址:上海交大机械与动力工程学院A楼736室
个人主页:www.researchgate.net/profile/Zhenyu_Liu10
教育背景
2005-2010 上海交通大学 博士
2002-2005 上海交通大学 硕士
1998-2002 苏州大学 学士
工作经历
2017- 上海交通大学,机械与动力工程学院,副教授,博士生导师
2013-2016 上海交通大学,机械与动力工程学院,助理研究员,硕士生导师/博士生导师
2010-2012 Lund University, Department of Energy Sciences, Postdoctoral Fellow
2010-2013 上海交通大学,机械工程流动站,博士后
研究方向
微纳尺度蒸发/沸腾传热过程
纳米通道离子流体输运
高效能量蓄存/利用
孔隙尺度微气体-颗粒流动与传热
欢迎对上述研究方向感兴趣的本科生、硕士生和博士生加入课题组。
学术兼职
国家自然科学基金 通讯评审专家
上海市科技专家库专家/上海市科学技术奖通讯评审专家
教育部学位与研究生教育发展中心通讯评审专家
ASME 13th ICNMM conference, 分会场主席 (Session Chair)
2022/2023 International Conference on Fluid Flow and Thermal Science, 学术委员会委员 (Scientific Committee Member)
Special Issue "Frontiers in Thermal Management and Heat Transfer" of Energies, 客座编辑(Guest Editor)
Special Issue "Multiscale Heat/Mass Transfer and Enhancing Methods in the CaO/Ca(OH)2/H2O Reaction System for Thermochemical Energy Storage" of Frontiers in Thermal Engineering, 客座编辑(Guest Editor)
美国化学会会员 ACS member
美国机械工程师协会会员 ASME member
同行评审专家: International Journal of Heat and Mass Transfer, Small, Cell Reports Physical Science, International Communications in Heat and Mass Transfer, ACS Applied Nano Materials, Physics of Fluids, Langmuir, Applied Thermal Engineering, International Journal of Thermal Sciences, Fuel 等20余种重要国际学术期刊
1. 课程名称:高等传热学(全英语),授课对象:研究生 学时数:48 学分:3 (秋季授课)
2. 课程名称:工程学导论,授课对象:本科生 学时数:48 学分:3 (秋季授课)
科研项目
2025-2028 国家自然科学基金项目,水蒸发诱导发电的热质传递特性与能量转换机理研究,项目负责人
2017-2020 国家自然科学基金项目,受限孔隙空间气体-颗粒两相微尺度流动与复合传热机理研究,项目负责人
2014-2016 国家自然科学基金项目,孔隙尺度非饱和多孔介质基于VOF方法的冷凝传热特性研究,项目负责人
2018-2020 上海市“科技创新行动计划”“一带一路”国际合作项目,微多孔介质内气粒两相热质输运孔隙尺度研究,项目负责人
2024-2027 上海市“科技创新行动计划”自然科学基金项目,纳米限域水蒸发驱动流动诱导发电机理研究,项目负责人
2024-2028 国家自然科学基金重点项目,宽禁带高功率器件集成近结射流微通道高效相变散热及全场强化新方法,主要参与人
2019-2023 国家自然科学基金重点国际合作项目,三维堆叠芯片高效相变冷却关键科学问题研究,主要参与人
2016-2020 国家自然科学基金重点项目,微纳系统中粒子-流体输运机制及热质传递规律研究,主要参与人
2012-2016 国家重点基础研究项目(973课题),气相余热高效梯级储存与转换的理论和方法,主要参与人
2010-2012 瑞典能源部资助项目, 膜状冷凝数值模拟研究,主要完成人
2022-2023 教育部重点实验室开放课题,激光尾波加速弯曲毛细管内气体流动模拟研究,项目负责人
2013-2015 上海交通大学新进青年教师起步基金,孔隙尺度多孔结构热质传输特性研究,项目负责人
代表性论文专著
在Nano Letters、International Journal of Heat and Mass Transfer、Applied Energy、Nano Research等重要期刊发表论文70余篇,Google Scholar 引用1700余次,h指数20, 其中ESI高被引研究论文1篇、期刊封面论文1篇、编辑推荐论文1篇。
代表性期刊论文:
(53) W. Dai, H. Wu and Z. Liu, Gas slip flow and heat transfer over a semi-confined cylinder in proximity to a solid wall, International Journal of Heat and Mass Transfer, 2025, 237: 126439.
(52) R. Liu, Z. Liu, Y. Zhao, P. Cui, H. Wu, Role of Carbon Nanotube Wetting Transparency in Rapid Water Transport for a Nanopore Membrane, Nano Letters, 2024, 24, 11, 3484–3489.
(51) P. Cui, Z. Liu, H. Wu, Subcooled flow boiling in ultrahigh-aspect-ratio microchannels for high heat flux cooling, International Communications in Heat and Mass Transfer, 151 (2024) 107221.
(50) A. Tariq, Y. Zhao, A. Munir, P. Cui, Z. Liu, Pore-scale study of gas natural convection in confined porous media based on lattice Boltzmann method, ASME Journal of Heat and Mass Transfer, 2024, 146(2): 022701.
(49) F. Luo, Y. Huang, R. Liu, H. Wu, Z. Liu, Nanoscale study on enhanced interfacial heat transfer in confined space with spontaneously formed diol molecular bridge, International Journal of Thermal Sciences, 2024, 201, 109048.
(48) P. Tian, Y. Sun, P. Cui, H. Wu, Z. Liu, Optimization of Evaporation Heat Transfer in High-Porosity Porous Columns, International Journal of Heat and Fluid Flow, 2024, 110: 109608.
(47) G. Hou, X. Zhang, F. Du, Y. Wu, X. Zhang, Z. Lei, W. Lu, F. Zhang, G. Yang, H. Wang, Z. Liu, R. Wang, Q. Ge, J. Chen, G. Meng, N.X. Fang, X. Qian, Self-regulated underwater phototaxis of a photoresponsive hydrogel-based phototactic vehicle, Nature Nanotechnology, 19 (2024) 77-84.
(46) J. Liu, H Wu, X. Hua, Z. Liu, Silicon-based Microjet Array Impingement Boiling Heat Transfer with SDS Surfactant Solutions, Applied Thermal Engineering, 2024, 257: 124454.
(45) S. Zhang, H. Wu, S. Lin, G. Jiang, Z. Liu, Three-dimensional central-moment pseudopotential lattice Boltzmann model with improved discrete additional term, Physics of Fluids, 2024, 36: 103304.
(44) P. Cui, Z. Liu, Experimental study on flow boiling in ultrahigh-aspect-ratio copper microchannel heat sink, Applied Thermal Engineering, 223 (2023) 119975.
(43) Z. Qiang, P. Cui, C. Tian, R. Liu, H. Shen, Z. Liu, Enhancing power generation for carbon black film device based on optimization of liquid capillary flow, Applied Energy, 351 (2023) 121874.
(42) Z. Liu, Z. Liu, R. Liu, Rapid boiling of ultra-thin liquid argon film on patterned wettability surface with nanostructure: A molecular dynamics investigation, International Journal of Thermal Sciences, 192 (2023) 108424.
(41) Z. Liu, X. Huang, R. Liu, Voltage generation induced by thermo-driven ion solution flow in CNTs for low-grade thermal energy harvesting, International Journal of Heat and Mass Transfer, 202(2023) 123751.
(40) Z. Liu, Z. Liu, R. Liu, Fast evaporation of ultra-thin pure and saline water film through functionalized holey graphene membrane, International Communications in Heat and Mass Transfer, 140 (2023) 106542.
(39) X. Zhu, B. Li, F. Liu, J. Li, Z. Bi, X. Ge, H. Deng, Z. Zhang, P. Cui, L. Lu, W. Yan, X. Yuan, L. Chen, Q. Cao, Z. Liu, Z. Sheng, M. Chen, J. Zhang, Experimental Demonstration of Laser Guiding and Wakefield Acceleration in a Curved Plasma Channel, Physical Review Letters, 130 (2023) 215001. (Editors' Suggestion 和 Featured in Physics)
(38) Y. Zhao, P. Cui, J. Li, B. Li, X. Zhu, M. Chen, Z. Liu, Simulation Study on Gas Flow in Curved Capillary used in Laser Wakefield Acceleration, Acta Physica Sinica, 72 (2023) 186102 (EDITOR'S SUGGESTION)
(37) R. Liu, Z. Liu, Self-pumping ultra-thin film evaporation on CNT-embedded silicon nitride nanopore membrane, Nano Research, 15 (2022) 1725-1729.
(36) Y. Wang, R. Liu, Z. Liu, Nonlinearly Induced Electro-osmotic Flow Reversal in Charged Nanotube: Counter-ions Mobility in Stern Layer, International Journal of Heat and Mass Transfer, 188(2022) 122587.
(35) A. Tariq, Z. Liu, Heat Transfer and Friction Factor Correlations for Slip Gaseous Fluid Flow in Confined Porous Medium with Pore-Scale LBM Modelling, International Journal of Thermal Sciences, 173 (2022) 107382.
(34) X. Huang, R. Liu, Z. Liu, Evaporation of Ultra-Thin Water Film on Hot Spot with Nanopillar Array, International Journal of Thermal Sciences, 182 (2022) 107807.
(33) W. Dai, H. Wu, Z. Liu, S. Zhang, Improved curved-boundary scheme for lattice Boltzmann simulation of microscale gas flow with second-order slip condition, Physical Review E, 105 (2022) 025310.
(32) P. Cui, Z. Liu, Enhanced flow boiling of HFE-7100 in picosecond laser fabricated copper microchannel heat sink, International Journal of Heat and Mass Transfer, 175 (2021) 121387.
(31) A. Tariq, Z. Liu, A pore-scale analysis for friction factor and permeability in confined porous medium with LB method, International Communications in Heat and Mass Transfer, 127 (2021) 105559.
(30) R. Liu, Z. Liu, Enhanced Evaporation of Ultrathin Water Films on Silicon-Terminated Si3N4 Nanopore Membranes, Langmuir, 37 (2021) 10046-10051.
(29) Z. Liu, Y. Wang, R. Liu, Temperature-Dependent Electro-osmotic Flow Reversal in a Nanotube with High Surface Charge Density, Journal of Physical Chemistry C, 125 (2021) 898-907.
(28) Z. Liu, X. Yao, X. Cheng, H. Wu, H. Wang, H. Shen, Experimental study on two-phase boiling in wavy copper microchannels fabricated with ultrafast laser micromachining, Journal of Micromechanics and Microengineering, 30 (2020) 065011.
(27) R. Liu, Z. Liu, Rapid thermal transport at rough solid-fluid interface: Evaporation and explosive boiling on concave nanostructure, International Journal of Heat and Mass Transfer, 154 (2020) 119676.
(26) A. Tariq, P. Li, A. Xu, Z. Liu, A correlation for Nusselt number of slip gas flow in confined porous media, ASME Journal of Heat Transfer, 2020, 142(9): 092702.
(25) Z. Liu, Z. Mu, H. Wu, Numerical Modeling of Slip Flow and Heat Transfer Over Microcylinders With Lattice Boltzmann Method, ASME Journal of Heat Transfer, 141 (2019) 042401.
(24) Z. Liu, X. Shi, H. Wu, Coarse-grained molecular dynamics study of wettability influence on protein translocation through solid nanopores, Nanotechnology, 30 (2019) 165701. (期刊封面论文)
(23) Z. Liu, Z. Mu, H. Wu, A new curved boundary treatment for LBM modeling of thermal gaseous microflow in the slip regime, Microfluidics and Nanofluidics, 23(2) (2019) 27.
(22) R. Liu, Z. Liu, Study of boiling heat transfer on concave hemispherical nanostructure surface with MD simulation, International Journal of Heat and Mass Transfer, 143 (2019) 118534. (Google Scholar引用69次)
(21) Y. Yao, H. Wu, Z. Gao, Z. Liu, Pore-scale visualization and measurement of paraffin solidification in high porosity open-cell copper foam, International Journal of Thermal Sciences, 135 (2019) 94-103.
(20) Z. Liu, J. Zhou, H. Wu, New correlations for slip flow and heat transfer over a micro spherical particle in gaseous fluid, Powder Technology, 338 (2018) 129-139.
(19) Z. Liu, J. Zhou, H. Wu, Non-isothermal slip flow over micro spherical particle at low Reynolds numbers, Chemical Engineering Science, 191 (2018) 19-30.
(18) Y. Yao, H. Wu, Z. Liu, Z. Gao, Pore-scale visualization and measurement of paraffin melting in high porosity open-cell copper foam, International Journal of Thermal Sciences, 123 (2018) 73-85.
(17) Y. Yao, H. Wu, Z. Liu, Direct Simulation of Interstitial Heat Transfer Coefficient Between Paraffin and High Porosity Open-Cell Metal Foam, ASME Journal of Heat Transfer, 140 (2018) 032601.
(16) F. Xu, H. Wu, Z. Liu, Flow Patterns During Flow Boiling Instability in Silicon-Based Pin-Fin Microchannels, ASME Journal of Heat Transfer, 140 (2018) 031501.
(15) Y. Yao, H. Wu, Z. Liu, Pore Scale Investigation of Heat Conduction of High Porosity Open-Cell Metal Foam/Paraffin Composite, ASME Journal of Heat Transfer, 139 (2017) 091302.
(14) H. Wang, Z. Liu, H. Wu, Entransy dissipation-based thermal resistance optimization of slab LHTES system with multiple PCMs arranged in a 2D array, Energy, 138 (2017) 739-751.
(13) Gu Juan, Huang Rong-Zong, Liu Zhen-Yu, Wu Hui-Ying,A new curved boundary treatment in lattice Boltzmann method for micro gas flow in the slip regime, Acta Physica Sinica, 66 (2017) 114701.
(12) Z. Liu, H. Wu, Numerical modeling of liquid–gas two-phase flow and heat transfer in reconstructed porous media at pore scale, International Journal of Hydrogen Energy, 41 (2016) 12285-12292.
(11) Z. Liu, H. Wu, Pore-scale study on flow and heat transfer in 3D reconstructed porous media using micro-tomography images, Applied Thermal Engineering, 100 (2016) 602-610. (Google Scholar引用60次)
(10) Z. Liu, H. Wu, Pore-scale modeling of immiscible two-phase flow in complex porous media, Applied Thermal Engineering, 93 (2016) 1394-1402. (Google Scholar引用69次)
(9) Z. Liu, B. Sunden, H. Wu, Numerical modeling of multiple bubbles condensation in subcooled flow boiling, ASME Journal of Thermal Science and Engineering Applications, 7 (2015) 031003.
(8) Y. Yao, H. Wu, Z. Liu, A new prediction model for the effective thermal conductivity of high porosity open-cell metal foams, International Journal of Thermal Sciences, 97 (2015) 56-67.(Google Scholar引用118次)
(7) D. Hu, H. Wu, Z. Liu, Effect of liquid-vapor interface area on the evaporation rate of small sessile droplets, International Journal of Thermal Sciences, 84 (2014) 300-308.
(6) Z. Liu, Y. Yao, H. Wu, Numerical modeling for solid-liquid phase change phenomena in porous media: Shell-and-tube type latent heat thermal energy storage, Applied Energy, 112 (2013) 1222-1232. (Google Scholar引用400次,ESI高被引论文)
(5) Z. Liu, H. Wu, Steady-State and Transient Investigation of the Primary Surface Recuperator for Microturbines, Heat Transfer Engineering, 34 (2013) 875-886.
(4) Z. Liu, B. Sunden, J. Yuan, VOF modeling and analysis of filmwise condensation between vertical parallel plates, Heat Transfer Research, 43 (2012) 47-68. (Google Scholar引用140次, Most Downloaded Article)
(3) Z. Liu, H. Cheng, J. Sun, Numerical and experimental analysis of solar intrusion for radiometer in geostationary orbit, Heat Transfer Engineering, 31 (2010) 1193-1202.
(2) Z. Liu, H. Cheng, J. Sun, Thermal analysis of the radiometer onboard a geostationary satellite, Journal of Spacecraft and Rockets, 46 (2009) 810-817.
(1) Z. Liu, H. Cheng, Multi-objective optimization design analysis of primary surface recuperator for microturbines, Applied Thermal Engineering, 28 (2008) 601-610. (Google Scholar引用57次)
国际会议论文:
(26) P. Cui, Z. Liu, H. Wu, Numerical simulation of leidenfrost effect of droplets on porous substrate, ASME MNHMT2024, August 5-7, 2024, Nottingham, UK
(25) Z. Qiang, R. Liu, P. Cui, Z. Liu, Geometry Effect on Voltage Generation from Capillary Driven Water Evaporation in Carbon Black Film, ICAE2022, Bochum, Germany, Aug. 8-11, 2022.
(24) X. Huang, R. Liu, Z. Liu, Investigation of nano thin film evaporation on hot spot with nanopillar array based on molecular dynamics simulation, ICFFTC2022, Virtual, Online, October 27-29, 2022.
(23) R. Liu, Z. Liu, Enhanced mechanism of water evaporation through nanoporous membrane, ASME SHTC, 2021.
(22) P. Cui, Z. Liu, Flow boiling of deionized water in ultrahigh-aspect-ratio microchannel heat sink, ASME SHTC, 2021.
(21) Z. Liu, R. Liu, P. Li, A. Xu, Z. Liu, Study of boiling heat transfer on heterogeneous wetting surface with md simulation, ASME SHTC, 2021.
(20) A. Tariq, Z. Liu, Slip gas flow and heat transfer in confined porous media with different shape cylinders, ASME SHTC, 2021.
(19) X. Wang, P. Li, A. Xu, Z. Liu, Micro-Computed Tomography Pore-Scale Study on Natural Convection in a Cubic Cavity Filled With Complex Porous Medium, ASME SHTC 2020.
(18) Y. Wang, Z. Liu, Effect of Temperature on Velocity Profiles of Ions and Water Molecules in Charged Nanotubes, ASME SHTC, 2020.
(17) P. Cui, Z. Liu, Experimental Study on Flow Boiling of HFE-7100 in Wavy Copper Microchannels, ASME IMECE, 2020.
(16) A. Tariq, Z. Liu, Z. Mu, H. Wu, Nusselt Number Prediction for Slip Flow in Confined Porous Media Based on Lattice Boltzmann Method, ASME MNHMT2019, Dalian, China, July 8-10, 2019
(15) R. Liu, Z. Liu, H. Wu, Study of Pool Boiling Heat Transfer on Concave Nanostructured Surface with Molecular Dynamics Simulation, ASME SHTC2019, Bellevue, WA, USA, July 15-18, 2019
(14) X. Yao, Z. Liu, H. Wu, An Investigation on Mechanism of Droplet Generation in High Inertial Gaseous Flow, ASME SHTC2019, Bellevue, WA, USA, July 15-18, 2019
(13) Z. Liu, Z. Mu, H. Wu, Numerical study on apparent permeability of porous media in slip gas flows based on lattice Boltzmann method, ASME IMECE2018, Pittsburgh, PA, USA, November 9-15, 2018.
(12) Z. Liu, Z. Mu, H. Wu, Lattice Boltzmann modeling for slip flow and heat transfer of gaseous fluid in confined porous media, 16th International Heat Transfer Conference, Beijing, China,2018.
(11) Z. Liu, H. Wu, Numerical modeling of the gas-particle fluid flow and heat transfer in the slip regime, in: Proceedings of the First Asian Conference on Thermal Sciences, ACTS 2017, March 26-30, 2017, Jeju Island, Korea, 2017.
(10) Z. Liu, H. Wu, Pore-Scale Modeling of Natural Convection in Reconstructed Porous Media, ASME SHTC 2016 , July 10-14, 2016, Washington, DC, United states.
(9) Z. Liu, H. Wu, Numerical Modeling of Pore Fluid Flow in Reconstructed Porous Media, ASME ICNMM2015, July 6-9, 2015, San Francisco, United states.
(8) Z. Liu, H. Wu, Pore-Scale Study on Two-Phase Flow in Porous Media, 4th Micro and Nano Flows Conference, MNF2014, London, UK, 2014.
(7) Z. Liu, B. Sunden, J. Yuan, Numerical modelling of condensation of multiple bubbles in subcooled flow boiling with vof method, ASME SHTC2013, Minneapolis, MN, United states, 2013.
(6) Z. Liu, H. Wang, Y. Yao, H. Wu, Multiscale modeling of flow and heat transfer in porous media, in: ASME IMECE 2012, November 9-15, 2012, Houston, TX, United states, pp. 1659-1666.
(5) Z. Liu, B. Sunden, J. Yuan, Numerical simulation of condensation in a rectangular minichannel using VOF model, ASME IMECE 2012, November 9-15, 2012, Houston, TX, United states, pp. 2577-2583.
(4) Z. Liu, B. Sunden, J. Yuan, Development of CFD Simulation of Filmwise Condensation with VOF Model, 8th ECI International Conference on Boiling and Condensation Heat Transfer, June 3-7, 2012, Lausanne, Switzerland, 2012.
(3) Z. Liu, B. Sunden, J. Yuan, CFD Simulation of Steam Condensation between Vertical Parallel Plates Using a VOF Model, International Symposium on Multiphase Flow and Transport Phenomena, April 22-25, 2012, Agadir, Morocco, 2012.
(2) Z. Liu, B. Sunden, J. Yuan, Numerical simulation of steam condensation in a parallel plate passage, 2011 Baltic Heat Transfer Conference-6th BHTC, August 24-26, 2011, Tampere, Finland, 2011.
(1) Z. Liu, Y. Su, H. Cheng, Numerical and experimental investigation of transient response of primary surface recuperator due to flow rate step, ASME Turbo Expo 2008, June 9-13, 2008, Berlin, Germany, pp. 15-21.
http://scholar.google.com/citations?user=M8pxBi0AAAAJ&hl=zh-CN
https://orcid.org/0000-0002-9214-9798
https://publons.com/researcher/1758582/zhenyu-liu/
软件版权登记及专利
一种3D打印铜墨水在柔性基底制备双孔径多孔介质的方法, 中国发明专利,申请号:202410511876.6
一种可调节式发汗冷却效果测试系统及其测试方法,中国发明专利,申请号:2024115089986
具有微凹穴结构的正弦波形微通道换热器及其制造方法, 中国发明专利,申请号:202010372651.9
一种歧管式高深宽比微通道换热器, 中国发明专利,申请号:202010760271.2
一种便携式激光散热装置, 中国发明专利,申请号:202010338432.9
一种三维交叉式液滴生成微流控装置,中国发明专利,申请号:202110677578.0
应用于空间薄壁可展结构热保护的空间多层打孔隔热材料,中国发明专利,申请号:201610458043.3
一种便携式激光散热装置, 中国实用新型专利,申请号:202020650718 .6
一种适用于便携式激光设备散热的相变蓄冷装置, 中国实用新型专利,申请号:202022454268.6
三维液滴剪切流道结构, 中国实用新型专利,申请号:202121358981.9
2020 教育部自然科学一等奖
2015 上海交通大学博士后奖励基金
2010-2012 瑞典能源部奖学金
2000 䇹政研修基金