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[*] Yi T., Yang G., Wang B., Zhuan R., Huang Y., Wu J. Dynamics of a gas bubble penetrating through porous media. Physics of Fluids, 2022, 34(012103): 1-13.
[*] Zuo Z., Wu J., Huang Y.(*) Validity evaluation of popular liquid-vapor phase change models for cryogenic self-pressurization process. International Journal of Heat and Mass Transfer, 2021, 181(121879): 1-11.
[*] Zuo Z., Jiang W., Qin X., Huang Y.(*) A numerical model for liquid-vapor transition in self-pressurized cryogenic containers. Applied Thermal Engineering, 2021, 193(117005): 1-10.
[*] Zuo Z., Jiang W., Pan P., Qin X., Huang Y.(*) Quasi-equilibrium evaporation characteristics of oxygen in the liquid–vapor interfacial region. International Communications in Heat and Mass Transfer, 2021, 129(105697): 1-9.
[*] Zhu Z., Zhai J., Hu J., Wang Y., Chen W., Liu F., Huang Y., Li Z. Cryopiece, a novel carrier with faster cooling rate, high recovery rate and retrieval rate, for individual sperm cryopreservation. Translational Andrology and Urology, 2021, 10(3): 1121-1132.
[*] Qin X., Li P., Sun P., Huang Y.(*) Testing and comparison of a thermodynamic vent system operating in different modes in a liquid nitrogen tank. Applied Thermal Engineering, 2021, 197(117393): 1-10.
[*] Lv R.R., Huang Y.H., Wu J.Y. Thermodynamic analysis of a partially filled hydrogen tank in a wide scale range. Applied Thermal Engineering, 2021, 193(117007): 1-13.
[*] Jiang W., Sun P., Li P., Zuo Z., Huang Y.(*) Transient thermal behavior of multi-layer insulation coupled with vapor cooled shield used for liquid hydrogen storage tank. Energy, 2021, 231(120859): 1-12.
[*] Han S., Zhao L., Yang C., Xu J., Yao C., Huang C., Zhang H., Ji Z., Luo J., Guo Y., Hong Y., Liu F., Zhou X., Zhou Z., Huang Y.(*), Li Z. Vitrification with microinjection of single seminiferous tubules: an efficient cryopreservation approach for limited testicular tissue. Reproductive BioMedicine Online [RBMO], 2021, 43(4): 687-699.
[*] Wang Y., Yang G., Huang Y., Huang Y., Zhuan R., Wu J. An analytical model of flow-through-screen pressure drop for metal wire screens considering the effects of pore structures. Chemical Engineering Science, 2021, 229: 116037.
[*] Zuo Z., Jiang W., Huang Y(*). Numerical investigation on full thermodynamic venting process in a liquid hydrogen propellant tank at zero gravity. International Journal of Hydrogen Energy, 2020, 45(51): 20158-20172.
[*] Wang B., Qin X., Jiang W., Li P., Sun P., Huang Y(*). Numerical simulation on interface evolution and pressurization behaviors in cryogenic propellant tank on orbit. Microgravity Science and Technology, 2020, 32(1): 59-68.
[*] Raja A.A., Huang Y(*). Novel parabolic trough solar collector and solar photovoltaic/thermal hybrid system for multi-generational systems. Energy Conversion and Management, 2020, 211.
[*] Zuo Z., Sun P., Jiang W., Qin X., Li P., Huang Y(*). Thermal stratification suppression in reduced or zero boil-off hydrogen tank by self-spinning spray bar. International Journal of Hydrogen Energy, 2019, 44: 20158-20172.
[*] Zuo Z., Jiang W., Yu Z., Huang Y(*). Liquid nitrogen flow in helically corrugated pipes with insertion of high-temperature superconducting power transmission cables. International Journal of Heat and Mass Transfer, 2019, 140: 88-99.
[*] Jain A., Miglani A., Huang Y., Weibel J.A., Garimella S.V. Ice formation modes during flow freezing in a small cylindrical channel. International Journal of Heat and Mass Transfer, 2019, 128: 836-848.
[*] Chen Q., Huang Y.H(*). Effect of low wick permeability on transient and steady-state performance of heat pipes. Heat Transfer Research, 2019, 50(13): 1319–1332.
[*] Zuo Z., Jiang W., Huang Y(*). Effect of baffles on pressurization and thermal stratification in cryogenic tanks under micro-gravity. Cryogenics, 2018, 96: 116-124.
[*] Jiang W., Zuo Z., Huang Y(*). Coupling optimization of composite insulation and vapor-cooled shield for on-orbit cryogenic storage tank. Cryogenics, 2018, 96: 90-98.
[*] Huang Y.H.(*), Wang B., Chen Z.C., Sun P.J., Li P. Experimental evaluation of the performance of a thermodynamic vent system for a vapor-liquid storage tank with R141b as the testing fluid. International Journal of Refrigeration, 2018, 90: 83-90.
[*] Huang Y.(*), Chen Q., Wang R. Visualization study on capillary-spreading behavior of liquid droplet in vertically aligned carbon nanotube array. International Journal of Heat and Mass Transfer, 2018, 120: 1055-1064.
[*] Wang B., Huang Y.H.(*), Wu J.Y., Wang T.X., Lei G. Experimental study on pressure control of liquid nitrogen tank by thermodynamic vent system. Applied Thermal Engineering, 2017, 125: 1037-1046.
[*] Wang B., Huang Y.H.(*), Chen Z.C., Wu J.Y., Wang T.X., Lei G. Performance of thermodynamic vent system for cryogenic propellant storage using different control strategies. Applied Thermal Engineering, 2017, 126: 100-107.
[*] Huang Y.H.(*), Chen Q. A numerical model for transient simulation of porous wicked heat pipes by lattice Boltzmann method. International Journal of Heat and Mass Transfer, 2017, 105: 270-278.
[*] Huang Y.H.(*), Wang B., Zhou S.H., Wu J.Y., Lei G., Li P., Sun P.J. Modeling and experimental study on combination of foam and variable density multilayer insulation for cryogen storage. Energy, 2017, 123: 487-498.
[*] Chen Q., Huang Y(*). Scale Effects on Evaporative Heat Transfer in Carbon Nanotube Wick in Heat Pipes. International Journal of Heat and Mass Transfer, 2017, 111: 852-859.
[*]. Wang B., Huang Y.H.(*), Li P., Sun P.J., Chen Z.C., Wu J.Y. Optimization of variable density multilayer insulation for cryogenic application and experimental validation. Cryogenics, 2016, 80: 154-163.
[*]. Chen Q., Huang Y.H.(*) A practical dimensionless equation for the thermal conductivity of carbon nanotubes and CNT arrays. AIP Advances, 2014, 4: 057115.
[*]. Huang Y.H.(*), Weng J.M., Liu J.Q. Experimental investigation on sub-milliKelvin temperature control at liquid hydrogen temperatures. Cryogenics, 2014, 61: 158-163.
[*]. Huang Y.H.(*), Yu Q., Chen Q., Wang R.Z. Viscosity of liquid and gaseous helium-3 from 3 mK to 500 K. Cryogenics, 2012, 52(10): 538-543.
[*]. Huang Y.H.(*), Fang L., Wang X.J., Wang R.Z., Xu L. Thermal conductivity of helium-3 between 3 mK and 300 K. Advances in Cryogenic Engineering, 2011, 57B: 1849-1856.
[*]. Huang Y.H.(*), Fang L., Wang R.Z. Performance of cryogenic regenerator with 3He as working fluid. Chinese Science Bulletin, 2011, 56(16): 1732–1738
[*]. Huang Y.H.(*), Chen G.B., Wang R.Z. Thermodynamic Diagrams of 3He from 0.2 to 300 K Based Upon Its Debye Fluid Equation of State. Int. J. ThermoPhys., 2010, 31(4-5): 774-783
[*]. Huang Y.H.(*), Zhang P., Wang R.Z., Study on Surface Tension of Fluid Helium Three, Int. J. Thermophysics, 2008, 29:1321–1327.
[*]. Huang Y.H., Chen G.B., Arp V.D. Equation of state for fluid helium-3 based on Debye phonon model. Applied Physics Letters, 2006, 88(9):091905. (IF=4.127)
[*]. Huang Y.H., Chen G.B., Arp V.D. Debye equation of state for fluid helium-3. J. Chem. Phys., 2006, 125(5):054505. (IF=3.138)
[*]. Huang Y.H., Chen G.B. A practical vapor pressure equation for helium-3 from 0.01 K to the critical point. Cryogenics, 2006, 46(12): 833-839.
[*]. Huang Y.H., Chen G.B., Wang S.Q., Arp V.D. Equation of state for normal liquid helium-3 from 0.1 K to 3.3157 K. J. Low Temp. Phys., 2006, 143(1/2): 1-29.
[*]. Huang Y.H., Chen G.B. Melting-pressure and density equations of 3He at temperatures from 0.001 to 30 K. Phys. Rev. B, 2005, 72(18):184513. (IF=3.185).