1986-1990, Southeast University / Engineering Thermophysics, Bachelor
1990-1993, Southeas University / Thermal Engineering, Master
1993-1997 Southeast University / Thermal Engineering, Doctor

1997-1999 Postdoctor, School of Power and Energy Engineering, Shanghai Jiao Tong University
1999-2003 Associate Professor, School of Power and Energy Engineering, Shanghai Jiao Tong University
2000-2003 Visiting Scholar, Department of Mechanical Engineering, Hong Kong University of Science and Technology
2004-2010 Professor, School of Mechanical Engineering, Shanghai Jiao Tong University
2004- Deputy Director, Laboratory for Microfluidics and Thermal Control, Shanghai Jiao Tong University
2005- Deputy Director, Institute of Engineering Thermophysics, Shanghai Jiao Tong University
2010- Distinguished Professor, School of Mechanical Engineering, Shanghai Jiao Tong University

2000-2003 Visiting Scholar, Department of Mechanical Engineering, Hong Kong University of Science and Technology

1. Micro/Nanoscale Fluid Flow, Heat and Mass Transfer
2. Microelectronic Cooling Technology
3. Advanced Thermal Energy Storage Technology
4. Enhanced Heat and Mass Transfer

2019-2023 Key Project of National Natural Science Foundation (Key-NSFC) for Internatioanal Collaborations “Reserach on Key Scientific Problems in High Efficient Phase Change Cooling of 3D Stacked Chips ”, Principal Investigator
2016-2020 Key Project of National Natural Science Foundation (Key-NSFC) “Investigation on Transport Mechanism, Heat and Mass Transfer Characteristics of Particle-Fluid Flow in Micro/nano System”, Principal Investigator
2014-2017 National Natural Science Foundation project (NSFC) “Lattice Boltzmann Method and Simulation for Solid-Liquid Phase Change in Complicated Porous Media”, Principal Investigator
2012-2016 The State Key Fundamnetal Research Programs ("973" Program), Sub-project “Theory and Method for High-Efficient Cascade Storage and Conversion of Gas-Phase Waste Heat”, Principal Investigator
2010-2013 National Science Fund for Distinguished Young Scholars of NSFC “High Efficient Heat and Mass Transfer Theory and Technology for Integrated Micro/Nanoscale Systems”, Principal Investigator
2009-2011 Project for Shanghai Shu Guang Tracking Program “Enancnced Heat and Mass Transfer in Microsystems”, Principal Investigator
2008-2010 Key Projects of Education Committee of Shanghai “Fluid Flow and Thermal Control in Integrated Nano/Micro Devices”, Principal Investigator
2007-2009 Project for Distinguished Young Scholars of Ministry of Education New Century Outstanding Young Professors Promotion Program “Novel Integrated Microelectronic Chip Cooling Theory and Technology”, Principal Investigator
2005-2007 National Natural Science Foundation project (NSFC) “Flow Pattern, Thermal Properties and Instability Fluctuation during Steam Condensation in Silicon Microchannels”, Principal Investigator
2005-2007 Project for Shanghai Shu Guang Training Program “Reseach on Themal Control of Integrated Silicon Pulsating Heat Pipe”, Principal Investigator
2003-2005 National Cooperation and Exchange Project between Hong Kong and Mainland “Fundamental Research on Silicon-based Micro-Condensers”, Principal Investigator

Yao Y.P., Wu H.Y.*, Gao Z.S., Liu Z.Y., Pore-scale visualization and measurement of paraffin solidification in high porosity open-cell copper foam, International Journal of Thermal Sciences, 2019, 135: 94-103.
Yao Y.P., Wu H.Y.*, Liu Z.Y., Gao Z.S., Pore-scale visualization and measurement of paraffin melting in high porosity open-cell copper foam, International Journal of Thermal Sciences, 2018,123: 73-85.
Yao Y.P., Wu H.Y.*, Liu Z.Y., Direct simulation of interstitial heat transfer coefficient between paraffin and high porosity open-cell metal foam, Journal of Heat Transfer-Transactions of the ASME, 2018, 140(3): 032601.
Xu F.Y., Wu H.Y.*, Effect of pin-fins on the onset of flow instability of water in silicon-based microgap, International Journal of Thermal Sciences, 2018, 130: 496-506.
Xu F.Y., Pan Z.H., Wu H.Y.*, Experimental investigation on the flow transition in different pin fin arranged microchannels, Microfluidics and Nanofluidics, 2018, 22(1):11.
Xu F.Y., Wu H.Y.*, Liu Z.Y., Flow patterns during flow boiling instability in silicon-based pin-fin microchannels, Journal of Heat Transfer-Transactions of the ASME, 2018, 140(3): 031501.
Xu F.Y., Wu H.Y.*, Experimental study of water flow and heat transfer in silicon micro-pin-fin heat sinks, Journal of Heat Transfer-Transactions of the ASME, 2018,140(12): 122401.
Huang H.X., Wu H.Y.*, Zhang C., An experimental study on flow friction and heat transfer of water in sinusoidal wavy silicon microchannels, Journal of Micromechanics and Microengineering, 2018, 28: 055003.
Huang R.Z.*, Wu H.Y.*, Adams N.A.*, Eliminating cubic terms in the pseudopotential lattice Boltzmann model for multiphase flow, Physical Review E, 2018, 97: 053308.
Yuan C., Pan Z.H., Wu H.Y.*, Inertial migration of single particle in a square microchannel over wide ranges of Re and particle sizes, Microfluidics and Nanofluidics, 2018, 22(9): 102.
Pan Z.H., Zhang R.L., Yuan C., Wu H.Y.*, Direct measurement of microscale flow structures induced by inertial focusing of single particle and particle trains in a confined microchannel, Physics of Fluids, 2018, 30(10): 102005.
Liu Z.Y., Zhou J. Wu H.Y.*, Non-isothermal slip flow over micro spherical particle at low Reynolds numbers, Chemical Engineering Science, 2018, 191: 19-30.
Liu Z.Y., Zhou J., Wu H.Y.*, New correlations for slip flow and heat transfer over a micro spherical particle in gaseous fluid, Powder Technology, 2018, 338: 129-139.
Zhao K.W., Wu H.Y.*, The fountain effect of ice-like water across nanotube at room temperature, Physical Chemistry Chemical Physics, 2017, 19(42): 28496 - 28501.
Zhao K.W., Wu H.Y.*, Han B.S., Negative effect of nanoconfinement on water transport across nanotube membranes, Journal of Chemical Physics, 2017, 147(16):164705.
Yao Y.P., Wu H.Y.*, Liu Z.Y., Pore scale investigation of heat conduction of high porosity open-cell metal foam/paraffin composite, Journal of Heat Transfer-Transactions of the ASME, 2017, 139(9): 091302.
Wang H.R., Liu Z.Y., Wu H.Y.*, Entransy dissipation-based thermal resistance optimization of slab LHTES system with multiple PCMs arranged in a 2D array, Energy, 2017, 138: 739-751.
Gu J., Huang R.Z., Liu Z.Y., Wu H.Y.*, A new curved boundary treatment in lattice Boltzmann method for micro gas flow in the slip regime, Acta Physica Sinica, 2017, 66: 114701.
Qu J., Wu H.Y., Cheng P., Wang Q.，Recent advances in MEMS-based micro heat pipes, International Journal of Heat and Mass Transfer, 2017, 110: 294-313.
Huang R.Z., Wu H.Y.*, Third-order analysis of pseudopotential lattice Boltzmann model for multiphase flow, Journal of Computational Physics, 2016, 327: 121-139.
Huang R.Z., Wu H.Y.*, Total enthalpy-based lattice Boltzmann method with adaptive mesh refinement for solid-liquid phase change, Journal of Computational Physics, 2016, 315: 65-83.
Hu D.H., Wu H.Y.*, Volume evolution of small sessile droplets evaporating in stick-slip mode, Physical Review E, 2016, 93(4): 042805.
Liu Z.Y., Wu H.Y.*, Numerical modeling of liquid-gas two-phase flow and heat transfer in reconstructed porous media at pore scale, International Journal of Hydrogen Energy, 2016, 41(28): 12285-12292.
Liu Z.Y., Wu H.Y.*, Pore-scale study on flow and heat transfer in 3D reconstructed porous media using micro-tomography images, Applied Thermal Engineering, 2016, 100: 602-610.
Liu Z.Y., Wu H.Y.*, Pore-scale modeling of immiscible two-phase flow in complex porous media, Applied Thermal Engineering, 2016, 93: 1394-1402.
Zhao K.Y., Wu H.Y.*, Fast water thermo-pumping flow across nanotube membranes for desalination, Nano Letters, 2015, 15: 3664-3668.
Huang R.Z., Wu H.Y.*, Phase interface effects in the total enthalpy-based lattice Boltzmann model for solid-liquid phase change, Journal of Computational Physics, 2015, 294: 346-362.
Zhao K.Y., Wu H.Y.*, Structure-dependent water transport across nanopores of carbon nanotubes: toward selective gating upon temperature regulation, Physical Chemistry Chemical Physics, 2015, 17: 10343-10347.
Hu D.H., Wu H.Y.*, Numerical study and predictions of evolution behaviors of evaporating pinned droplets based on a comprehensive model, International Journal of Thermal Sciences, 2015, 96: 149-159.
Yao Y.P., Wu H.Y.*, Liu Z.Y., A new prediction model for the effective thermal conductivity of high porosity open-cell metal foams, International Journal of Thermal Sciences, 2015, 97: 56-67.
Huang R.Z., Wu H.Y.*, Lattice Boltzmann model for the correct convection-diffusion equation with divergence-free velocity field, Physical Review E, 2015, 91: 033302.
Hu D.H., Wu H.Y.*, Liu Z.Y., Effect of liquid-vapor interface area on the evaporation rate of small sessile droplets, International Journal of Thermal Sciences, 2014, 84: 300-308.
Huang R.Z., Wu H.Y.*, A modified multiple-relaxation-time lattice Boltzmann model for convection-diffusion equation, Journal of Computational Physics, 2014, 274: 50-63.
Huang R.Z., Wu H.Y.*, An immersed boundary-thermal lattice Boltzmann method for solid–liquid phase change, Journal of Computational Physics, 2014, 277: 305-319.
Zhou D.Q., Wu H.Y.*, A thermal conductivity model of nanofluids based on particle size distribution analysis, Applied Physics Letters, 2014, 105(8): 083117-083121.
Huang R.Z., Wu H.Y.*, Multiblock approach for the passive scalar thermal lattice Boltzmann method, Physical Review E, 2014, 89(4): 043303.
Huang R.Z., Wu H.Y.*, Cheng P, A new lattice Boltzmann model for solid-liquid phase change, International Journal of Heat and Mass Transfer, 2013, 59: 295-301.
Liu Z.Y., Wu H.Y.*, Steady-state and transient investigation of primary surface recuperator for microturbines, Heat Transfer Engineering, 2013, 34(10): 875-886.
Liu Z.Y., Yao Y.P., Wu H.Y.*, Numerical modeling for solid-liquid phase change phenomena in porous media: shell-and-tube type latent heat thermal energy storage, Applied Energy, 2013, 112: 1222-1232.
Zhao K.W., Wu H.Y.*, Size effects of pore density and solute size on water osmosis through nanoporous membrane, Journal of Physical Chemistry B, 2012, 116(45): 13459-13466.
Qu J., Wu H.Y.*, Cheng P, Start-up, heat transfer and flow characteristics of silicon-based micro pulsating heat pipes, International Journal of Heat and Mass Transfer, 2012, 55(21-22): 6109-6120.
Qu J., Wu H.Y., Wang Q., Experimental investigation of silicon-based micro-pulsating heat pipe for cooling electronics, Nanoscale and Microscale Thermophysical Engineering, 2012, 16(1): 37-49.
Wu X.Y., Wu H.Y.*, Hu Y.D., Enhancement of separation efficiency on continuous magnetophoresis by utilizing L/T-shapede microchannels, Microfluidics and Nanofluidics, 2011, 11(1): 11-24.
Qu J., Wu H.Y.*, Thermal performance comparison of oscillating heat pipes with SiO2/water and Al2O3/water nanofluids, International Journal of Thermal Sciences, 2011, 50(10): 1954-1962.
Wu X.Y., Wu H.Y.*, High-efficiency magnetophoretic separation based on synergy of magnetic force field and flow field in microchannels, Science China: Technological Sciences, 2011, 54(12): 3311-3319
Qu J., Wu H.Y.*, Cheng P., Thermal performance of an oscillating heat pipe with Al2O3 - water nanofluids, International Communications in Heat and Mass Transfer, 2010, 37(2): 111-115.
Qu J., Wu H.Y.*, Flow visualization of silicon-based micro pulsating heat pipes, Science China: Technological Sciences, 2010, 53(4): 984-990.
Qu J., Wu H.Y.*, Cheng P., Non-linear analyses of temperature oscillation in a closed-loop pulsating heat pipe. International Journal of Heat and Mass Transfer, 2009, 52: 3481-3489
Wu X.Y., Wu H.Y.*, Cheng P., Pressure drop and heat transfer of Al2O3-H2O nanofluids through silicon microchannels. Journal of Micromechanics and Microengineering, 2009, 19(105020)
Wu H.Y.*, Wu X.Y., Wei Z., Flow friction and heat transfer of ethanol-water solutions through silicon microchannels, Journal of Micromechanics and Microengineering, 2009, 19(045005)
Wu H.Y.*, Wu X.Y., Qu J., Yu M.M., Condensation heat transfer and flow friction in silicon microchannels, Journal of Micromechanics and Microengineering, 2008, 18(115024)
Wu H.Y.*, Yu M.M., Cheng P., Wu X.Y., Injection flow during steam condensation in silicon microchannels, Journal of Micromechanics and Microengineering, 2007, 17: 1618-1627
Wu H.Y.*, Cheng P., Wang H., Pressure drop and flow boiling instabilities in silicon microchannel heat sinks, Journal of Micromechanics and Microengineering, 2006, 16: 2138-2146
Cheng P., Wu H.Y., Mesoscale and microscale phase change heat transfer, Advances in Heat Transfer, 2006, 39: 461-563.
Wu H.Y., Cheng P., Condensation flow patterns in silicon microchannels, International Journal of Heat and Mass Transfer, 2005, 48: 2186-2197
Wu H.Y., Cheng P., Boiling instability in parallel silicon microchannels at different heat flux, International Journal of Heat and Mass Transfer, 2004, 47: 3631-3641
Wu H.Y., Cheng P., Friction factors in smooth trapezoidal silicon microchannels with different aspect ratios, International Journal of Heat and Mass Transfer, 2003, 46: 2519-2525
Wu H.Y., Cheng P., Visualization and measurements of periodic boiling in silicon microchannels, International Journal of Heat and Mass Transfer, 2003, 46: 2604-2614
Wu H.Y., Cheng P., An experimental study of convective heat transfer in silicon microchannels with different surface conditions, International Journal of Heat and Mass Transfer, 2003, 46: 2547-2556
Wu H.Y., Cheng P., Liquid/two-phase/vapor alternating flow during boiling in microchannels at high heat flux, International Communications in Heat and Mass Transfer, 2003, 30: 295-302
Wu H.Y., Cheng H.E., Shuai R.J., Zhou Q.T., An analytical model for decaying swirl flow and heat transfer inside a tube, Journal of Heat Transfer-Transactions of the ASME, 2000, 122: 204-208
Wu H.Y., Cheng H.E., Zhou Q.T., Compound enhanced heat transfer inside tubes by combined use of a spirally corrugated tubes and inlet axial vane swirlers, Journal of Enhanced Heat Transfer, 2000, 7: 247-257

1. Course Name：Engineering Thermodyamics
Teaching Target: Undergradruate students
Credit Hour：48
Credit：3
2. Course Name：Heat Transfer
Teaching Target: Undergraduate students
Credit Hour：48
Credit：3
3. Course Name：The Frontiers of Engineering Thermophysics
Teaching Target: Graduate students

1. Patent Name：Design and Fabrication of Micro Silicon-based Heat Pipe with Functional Surface
No. ZL 200810036572.X
2. Patent Name：Design and Fabrication of Integrated Micro-Heat Sink
No. ZL 200710041126.3
3. Patent Name：Design and Fabrication of Integrated Silicon-based Pulsating Heat Pipe
No. ZL 200710043439.2

2012 Vice Director, China University Engineering Thermophysics Society
2009 Regional Organization Committee Chairman, The 2nd ASME Micro/Nanoscale Heat and Mass Transfer International Conference
2004 Assistant of Editor-in-China, International Journal of Heat and Mass Transfer

2014-2017 Elsevier Most Cited Chinese Researchers
2011 Shanghai Outstanding Academic Leaders
2009 China National Science Fund for Distinguished Young Scholars
2008 Scientific and Technological Young Elitists of Shanghai
2007 Shanghai Shu Guang Tracking Program
2007 National Science and Technology Progress Award (R2)
2006 Shanghai Science and Technology Progress Award (R2)
2006 Distinguished Young Scholars of Ministry of Education New Century Outstanding Young Professors Promotion Program
2004 Shanghai Shu Guang Training Program
2001 China University Science and Technology Progress Award (R5)