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连续入选Elsevier中国高被引学者(2014-2021),发表学术论文360余篇,Web of Science他引6000余次,主要代表性论文:
Li Yun, Wu Huiying*, Experimental investigation on flow boiling heat transfer in a bidirectional counter-flow microchannel heat sink, International Journal of Heat and Mass Transfer, 2022, 187:122500.
Zhang Shengyuan, Tang Jun, Wu Huiying*, Huang Rongzong, Phase-field lattice Boltzmann model for two-phase flows with large density ratio, Physical Review E, 2022,105(1):015304.
Huang Rongzong*, Wu Huiying*, Adams NikolausA*, Mesoscopic lattice Boltzmann modeling of the liquid-vapor phase transition. Physical Review Letters, 2021, 126(24):244501.
Cheng Xiao, Wu Huiying*, Enhanced flow boiling performance in high-aspect-ratio groove-wall microchannels, International Journal of Heat and Mass Transfer, 2021, 164:120468.
Cheng Xiao, Yao Yuanpeng, Wu Huiying*, An experimental investigation of flow boiling characteristics in silicon-based groove-wall microchannels with different structural parameters, International Journal of Heat and Mass Transfer, 2021, 168:120843.
Cheng Xiao, Wu Huiying*, Improved flow boiling performance in high-aspect-ratio interconnected microchannels, International Journal of Heat and Mass Transfer, 2021,165:120627.
Tang Jun, Zhang Shengyuan, Wu Huiying*, Multiphase flow simulation with three-dimensional weighted-orthogonal multiple-relaxation-time pseudopotential lattice Boltzmann model, Physics of Fluids, 2021,33(12):123305.
Zhang Shengyuan, Tang Jun, Wu Huiying*, Huang Rongzong, Improved thermal multiple-relaxation-time lattice Boltzmann model for liquid-vapor phase change, Physical Review E, 2021,103(4):043308.
Yao Yuanpeng, Wu Huiying*, Interfacial heat transfer in metal foam porous media (MFPM) under steady thermal conduction condition and extension of Lemlich foam conductivity theory, International Journal of Heat and Mass Transfer, 2021, 169:120974.
Yao Yuanpeng, Wu Huiying*, Macroscale modeling of solid–liquid phase change in metal foam/paraffin composite: Effects of paraffin density treatment, thermal dispersion, and interstitial heat transfer, Journal of Thermal Science and Engineering Applications-Transactions of the ASME, 2021, 13(4):041024.
Yao Yuanpeng, Wu Huiying*, Thermal energy discharging performance of metal foam/paraffin composite phase change material at pore scale, Journal of Thermal Science and Engineering Applications-Transactions of the ASME, 2021, 13(5):051007.
Cheng Xiao, Wu Huiying*, Heat transfer enhancement for wake zone using slit pillar in microchannel heat sinks, Journal of Heat Transfer-Transactions of the ASME, 2020, 142(1): 012502.
Cheng Xiao, Wu Huiying*, Heat transfer and entropy generation analysis of slit pillar array in microchannels, Journal of Heat Transfer-Transactions of the ASME, 2020, 142(9): 092502.
Cheng Xiao, Wu Huiying*, Experimental comparison of flow boiling heat transfer in high aspect ratio microchannels with plain and grooved walls, Journal of Heat Transfer-Transactions of the ASME, 2020, 142(12): 121602.
Yao Yuanpeng, Wu Huiying*, Thermal transport process of metal foam/paraffin composite (MFPC) with solid-liquid phase change: an experimental study, Applied Thermal Engineering, 2020, 179: 115668.
Pan Zhenhai, Shen Yu, Wu Huiying*, Saturated flow boiling of isolated seed bubble across a heated square cylinder in two-dimensional microchannel, International Journal of Heat and Mass Transfer, 2020, 157:119885.
Dai Lianfu, Wu Huiying*, Tang Jun, The UGKS simulation of microchannel gas flow and heat transfer confined between isothermal and nonisothermal parallel plates, Journal of Heat Transfer-Transactions of the ASME, 2020, 142(12): 122501.
Zhenyu Liu*, Yao Xinyu, Cheng Xiao, Wu Huiying, Wang Han, Shen Hong, Experimental study on two-phase boiling in wavy copper microchannels fabricated with ultrafast laser micromachining, Journal of Micromechanics and Microengineering, 2020, 30:065011.
Gao Zeshi, Wu Huiying*, Yao Yuanpeng, Two-stage heat transfer characteristics of constrained melting inside an isothermally heated horizontal cylinder, International Journal of Thermal Sciences, 2019, 144: 107-118.
Gao Zeshi, Yao Yuanpeng, Wu Huiying*, Validation of a melting fraction-based effective thermal conductivity correlation for prediction of melting phase change inside a sphere, International Journal of Thermal Sciences, 2019, 142: 247-257.
Gao Zeshi, Yao Yuanpeng, Wu Huiying*, A visualization study on the unconstrained melting of paraffin in spherical container, Applied Thermal Engineering, 2019, 155: 428-436.
Huang Rongzong*, Wu Huiying, Adams Nikolaus A, Lattice Boltzmann model with adjustable equation of state for coupled thermo-hydrodynamic flows, Journal of Computational Physics, 2019, 392:227-247.
Huang Rongzong*, Wu Huiying*, Adams Nikolaus A*, Density gradient calculation in a class of multiphase lattice Boltzmann models, Physical Review E, 2019, 100: 043306.
Huang Rongzong*, Wu Huiying*, Adams Nikolaus A*, Lattice Boltzmann model with self-tuning equation of state for multiphase flows, Physical Review E, 2019, 99: 023303.
Pan Zhenhai, Chen Zhuo, Wu Huiying*, Self-excited rotation and flow dynamics across a freely rotatable square cylinder confined between two parallel walls, Physics of Fluids, 2019, 31: 087109.
Liu Zhenyu, Shi Xiaorui, Wu Huiying*, Coarse-grained molecular dynamics study of wettability influence on protein translocation through solid nanopores. Nanotechnology, 2019, 30 (16): 165701.
Yao Yuanpeng, Wu Huiying*, Pore-scale simulation of melting process of paraffin with volume change in high porosity open-cell metal foam, International Journal of Thermal Sciences,2019,138: 322-340.
Liu Zhenyu, Mu Zhiyu, Wu Huiying*, Numerical modeling of slip flow and heat transfer over microcylinders with Lattice Boltzmann method. Journal of Heat Transfer-Transactions of the ASME, 2019, 141 (4): 042401.
Liu Zhenyu, Mu Zhiyu, Wu Huiying*, A new curved boundary treatment for LBM modeling of thermal gaseous microflow in the slip regime. Microfluidics and Nanofluidics, 2019, 23 (2): 27.
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
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