Research Projects
2026 - present English Version NOT UPDATE
2026-, National Natural Science Foundation of China project "Research on Calculation Method of Thermodynamic Properties of Helium-containing Natural Gas Mixtures Driven by Physics-Data Synergy", Principal investigator
2025-, Industry project "Simulation and Modeling of Pressure Rise behavior and Temperature Change of Liquid Hydrogen Cylinders", Principal investigator
2025-, Research Institute cooperation project "Research on Technology of Cryogenic Propellant Pressurization and Conveying System and Principle Test Verification", Principal investigator
2025-, Research institute cooperation project "Cryogenic Propellant Storage System", Principal investigator
2025-, National Key R&D Program Project "Dynamic Mechanism and High-efficiency Management Method of Cryogenic Propellants under Complex Variable Overload", Principal investigator
2025-, Industry project "Sample Liquid Methane Immersion Test", Principal investigator
2025-, Research institute cooperation project "Research on Heat Transfer Mechanism and System Optimization at Quasi-Absolute Zero Temperature", Principal investigator
2025-, Industry project "Automatic Ultra-Fast Visualized Biological Sample Freezing and Thawing Instrument", Principal investigator
2025-, Industry project "High and Low Temperature Test Chamber for Joints of Magnetic Capture Subsystem", Principal investigator
2024-, University cooperation project "Development of Simulation Tool for Hypergravity Liquid-Solid Heat Transfer Analysis and Performance Test of Reusable Thermal Protection Materials under High and Low Temperature Boundaries", Principal investigator
2024-, Research institute cooperation project "Feasibility Verification Test Research on Water Evaporator", Principal investigator
2024-, Shanghai Jiao Tong University project "Development of Dry Testing Device for Thermal Insulation Performance of Thermal Insulation Materials in LNG and Liquid Hydrogen Temperature Zones Based on Cryocooler", Principal investigator
2024-, Industry project "Simulation Calculation and Design Optimization of Liquid Nitrogen Gas-Liquid Separator", Principal investigator
2023-, Research institute cooperation project "Cryogenic Vacuum Environment Test System", Principal investigator
2023-, Research institute cooperation project "Torque Loading System", Principal investigator
2023-, Industry project "Study on reducing thermal contact resistance on the cold head of cryocoolers", Principal investigator
2023-, Research institute cooperation project "Maintenance and Renovation of Cryogenic Environment Survival Test System Equipment", Principal investigator
2023-, Research institute cooperation project "Prototype Stage Test of Gas-Injected Accumulator", Principal investigator
2023-, Research institute cooperation project "Material Compatibility Test", Principal investigator
2022-, Research institute cooperation project "Cryostat Based on Stirling Cryocooler", Principal investigator
2022-, Research institute cooperation project "Integrated Simulation System for On-Orbit Storage Technology of Cryogenic Propellants", Principal investigator
2022-, Industry Project "Development of High-Efficiency and Low-Cost Helium Extraction Equipment for Natural Gas - 01 Physical Property Test and Model Construction", Principal investigator
2022-, Shanghai Hospital cooperation Project "Mechanism of Freezing and Thawing Injury and Functional Repair of Seminiferous Tubules in Testicular Tissue", Principal investigator
2022-, National Key R&D Program Project "Research on Helium Thermodynamic State Equation and Physical Property Calculation across Superfluid Phase Transition Based on Helmholtz Energy", Principal investigator
2022-, Industry Project "Research on Aging Mechanism and Condition Detection Technology of Superconducting Cable System", Principal investigator
2021-, Industry project "Development of Calibration System for Ultra-Low Temperature Thermometer", Principal investigator
2021-, Shanghai Hospital cooperation project "Upgrading R&D and Clinical Application of a New Type of Visualized Ultra-Fast Ultra-Low Temperature Freezing and Thawing Instrument for Human Gametes", 2nd investigator
2021-, Industry project "Modeling and Correlation Development of Thermal Contact Resistance on The Cold Head of Cryocoolers", Principal investigator
2021-, Research institute cooperation project "Scheme Demonstration of Cryogenic Storage Test System", Principal investigator
2021-, Research institute cooperation project "Development of Principle Test System for Gas-Injected Accumulator", Principal investigator
2021-, Research institute cooperation project "Research on Space Lossless Storage Technology of Liquid Oxygen/Methane Propellants", Principal investigator
2021-, Industry project "Research on Mechanical Property Testing Platform of Materials in Liquid Hydrogen Temperature Zone", Principal investigator
2021-, Research institute cooperation project "Maintenance and Upgrading Renovation of Cryogenic Environment Survival Test System Equipment", Principal investigator
2021-, Industry Project "Transbronchial Liquid Nitrogen Cryojet Device", Principal investigator
2021-, Research institute cooperation project "Analysis and Experimental Research on Microgravity of Normal Temperature Fluid Based on Magnetic Compensation Technology", Principal investigator
2021-, Chinese Academy of Sciences project "Low Temperature Physical Property Test of Regenerator Packing", Principal investigator
2021-, Shanghai Jiao Tong University project "Independent R&D of Laser Pulse Anti-Icing System Combined with Single Sperm Freezing and Thawing System", 2nd investigator
2020-, Industry project "Quantitative study on thermal contact resistance on the cold head of cryocoolers", Principal investigator
2020-, Research institute cooperation project "Development of Small Cryopump Prototype for Thermodynamic Vent Application of Cryogenic Propellants", Principal investigator
2020-, Shanghai Science and Technology Commission project "R&D of Ultra-Fast Ultra-Low Temperature Microscopic Imaging Cryopreservation Instrument for Human Gametes", Principal investigator
2020-, Chinese Academy of Sciences project "Development of Helium Cryogenic Thermophysical Property Interface Technology", Principal investigator
2019-, Key Project of the National Natural Science Foundation of China project "Research on Thermodynamic Mechanism of On-Orbit State of Cryogenic Propellants", 2nd investigator
2019-, Research institute cooperation project "Principle Test of Gas-Injected Accumulator", Principal investigator
2018-, Research institute cooperation project "Development of Equivalent Thermal Conductivity and Contact Thermal Resistance Measurement System", 2nd investigator
2018-, Industry project "Development of Liquid Nitrogen Flow Experimental System Platform Device", Principal investigator
2018-, Industry project "Experimental and Simulation Research on Liquid Nitrogen Flow in Spiral Corrugated Pipe", Principal investigator
2018-, Open Project of National Key Laboratory of Aerospace Cryogenic Propellant Technology project "Study on Dissolution and Precipitation Characteristics of Water in Cryogenic Propellants", Principal investigator
2018-, Industry project "Sealing Performance Test of Asbestos-Free Fiber Materials", Principal investigator
2018-, Research institute cooperation project "Development of Cold Helium Pressurization Principle Test System", Principal investigator
2018-, Research institute cooperation project "Research on Vapor Cooled Shield for Cryogenic Propellant Tank", Principal investigator
2018-, Open Project of Key Laboratory of Cryogenic Engineering, Chinese Academy of Sciences "Research on High Precision Temperature Control Based on Coupling Application of Heat Capacity Method and Thermal Resistance Method", Principal investigator
2018-, Chinese Academy of Sciences project "Low Temperature Physical Property Test of Oxygen-Free Copper", Principal investigator
2017-2020 National Science Foundation of China project "Theoretical and experimental investigation on thermodynamic vent system for long term on-orbit storage of cryogenic propellants", Principal investigator
2016-2016 Research institute cooperation project "Measurement of liquid deuterium", Principal investigator
2016-2018 Shanghai Municipal Science and Technology Commission project "Shanghai Cryogenic Technology and Service Center" (2nd phase), 2nd investigator
2014-2016 Industry project “Calculation and experimental study on liquid nitrogen flow dynamics in bellows for superconductor cables”, Principal investigator
2014-2016 Fundamental research project "Performance test of combined super insulation and thermodynamic vent system for cryogen storage", Principal investigator
2014-2015 Industry project "Development of a thermal environment for docking mechanism simulation", Principal investigator
2014-2015 Open Research Fund of the State Key Laboratory of Technologies in space cryogenic propellants “Evaporation and pressure control technology for long term cryogenic fluid storage” , Principal investigator
2013-2015 Shanghai Rising-Star Program project "Mass and heat transfer mechanism of heat pipes with carbon nanotube wikers", Principal investigator
2013-2015 Shanghai Municipal Science and Technology Commission project "Shanghai Cryogenic Technology and Service Center", 2nd Principal Investigator
2013-2015 Sub-project of Major State Basic Research Development Program (973), “Large scale non-constant mixing flow interface formation”(2011CB706501, last 3 years), Principal Investigator
2013-2015 Open Research Fund of the State Key Laboratory of Technologies in space cryogenic propellants “Study on electrostatic accumulation in flowing liquid hydrogen in insulated transfer lines” , Principal investigator
2012-2015 National Science Foundation of China project "Theoretical and experimental studies on heat transfer and fluid dynamics mechanism in heat pipes wicked with carbon nanotubes", Principal investigator
2010-2011 Industry project “Experimental environment simulation system for motion test”, 2nd Principal Investigator
2010-2012 Sub-project of Major State Basic Research Development Program (973), “Large scale non-constant mixing flow interface formation”(2011CB706501, first 2 years), Principal Investigator
2010-2012 Shanghai space funding project “Investigation on cryogenic fluid storage on oribit", Principal Investigator
2010-2012 Bio-Engineering Cooperation project of Shanghai Jiao Tong University, “Fast cooling techlogy for germ cell with bio-safty considerations”, Principal Investigator
2009-2011 National Natural Science Foundation projects (NSFC) “Investigation of the transport properties of 3He and the thermodyanmic properties of 3He-4He mixture", Principal Investigator
2008-2010 Shanghai Pu Jiang Program “Thermophysical properties of 3He and the applications to cryocoolers”, Principal Investigator
2008-2010 Chenguang Program, Shanghai Education Development Foundation “Studies on thermodynamic propeties of 3He/4He mixtures”, Principal Investigator
2008-2011 Projects of Ministry of Education (Dotoral Foundation) “Performance of cryogenic regenerator with helium-3 as working substance”, Principal Investigator
2007-2009 Industry cooperation project "Thermophysical properties of components and mixtures in air", Principal Investigator
2008-2010 Shanghai Science and Technology Commission project “Shanghai Cryogenic Technology Service Center" (8M RMB), 2nd Principal Investigator
2008-2010 National Natural Science Foundation projects (NSFC)“Thermalphyiscal phenomenen and mechanism of LN2 flow and heat transfer in mini-channel", 2nd Principal Investigator
2007-2008 International Cooperation project "Cryogenic Ground Support Equipments (CGSE)for AMS-02" (45 M RMB), paticipant
2006-2007 National Institute of Standards and Technology (NIST) funding project “4 K Regenerator Development and Improvements”, paticipant
Selected Publications
2026- present English Version NOT UPDATE
[88] Zhu W, Yao K, Miao R, Han S, Li Z, Han Y, Huang Y(*). Ultra-rapid vitrification and temperature measurement in laser rewarming of vitrified droplets[J]. Applied Thermal Engineering, 2026, 286: 129316.
[87] Zheng Z, Sun J, Huang Y(*). Performance evaluation of equations of state for typical cryogens two-phase simulation by pseudopotential lattice boltzmann method[J]. Physical Review E, 2026, 113(1): 015304.
[86] Zhang J, Mao R, Xu T, Zhang W, Gao X, Huang Y(*), Li P, Sun P, Wang B. Experimental evaluation of zero boil-off feasibility in a portable tank for demonstrating long-term cryogenic fuel storage in orbit[J]. Applied Thermal Engineering, 2026, 287: 129443.
[85] Xiao M, Huang Y(*), Yang G, Li C, Cai A, Wu J. Influencing mechanism of the non-isothermal behavior of an isolated vapor bubble in liquid oxygen[J]. Cryogenics, 2026, 155: 104292.
[84] Xiao M, Huang Y(*), Yang G, Li C, Cai A, Wu J. Bubble detachment dynamics in cryogenic boiling under microgravity: Experiments and empirical models[J]. International Journal of Heat and Mass Transfer, 2026, 256: 127915.
[83] Sun J, Yang Y, Huang Y(*). Development of a magnetic single-sinker densimeter based on direct displacement regulation over a wide temperature range from 85 to 350 K and pressures up to 15 MPa[J]. International Journal of Refrigeration, 2026, 182: 493-503.
[82] Zhu W, Huang Y(*), Li Z. Numerical investigation of ultra-rapid cooling characteristics of droplets on a cryogenic substrate[J]. International Journal of Heat and Mass Transfer, 2025, 247: 127101.
[81] Zheng Z, Xu A, Jiang W, Wang B, Sun P, Li P, Huang Y(*). Simulation of sloshing and settling behavior of liquid hydrogen in an insulated tank during coastal period[J]. International Journal of Hydrogen Energy, 2025, 97: 117-129.
[80] Zheng Z, Huang Y(*). Implementation of fundamental equations of state in a lattice Boltzmann model[J]. Physics of Fluids, 2025, 37(2): 023352.
[79] Zhao Y, Meng C, Huang Y(*). Correlation development for para-to-ortho hydrogen catalytic conversion in vapor-cooled shields of hydrogen tanks[J]. Cryo, 2025, 1(4): 14.
[78] Zhang W, Zhang H, Huang Y(*), Wang B, Xu A, Li P, Sun P, Miao R. Improving storage performance of a cryogenic common bulkhead tank filled with LOX and LCH4 by helium pressurization[J]. International Journal of Heat and Mass Transfer, 2025, 239: 126565.
[77] Zhang W, Xu T, Miao R, Huang Y(*), Li P, Sun P. Recondensation behavior modeling in a liquid methane-oxygen common bulkhead tank by a modified level set method[J]. Energy, 2025: 138568.
[76] Zhang W, Xu L, Zhang J, Zheng Z, Miao R, Huang Y(*). Multi-objective optimization of cryogenic propellant zero boil-off storage: Modeling, optimization method and performance enhancement[J]. Energy, 2025, 320: 135365.
[75] Zhang J, Zhang W, Xu L, Huang Y(*). Experimental evaluation and modeling of passive thermodynamic vent system in a small liquid nitrogen tank[J]. Applied Thermal Engineering, 2025, 263: 125425.
[74] Xu R, Miao W, Xiao M, Cao Q, Huang Y(*), Wu J, Yang G. Experimental study of liquid–vapor separation of cryogenic propellants under a ground-based magnetic compensation microgravity environment[J]. Cryogenics, 2025, 152: 104232.
[73] Xiao M, Wang J, Huang Y(*), Yang G, Cai A, Zhuan R, Tang H, Guo X, Wu JY. Stable long-term ground-based microgravity environment for cryogenic fluids[J]. Device, 2025, 4: 100869.
[72] Xiao M, Huang Y(*), Yang G, Li C, Cai A, Wu J. Visualization of cryogenic bubble growth in liquid oxygen during nucleate pool boiling[J]. Energy, 2025, 314: 134101.
[71] Pu L, Sun J, Yang Y, Qiu L, Sheng B, Huang Y(*). Measurement of isochoric heat capacity for a methane and carbon dioxide mixture at temperatures from 226 K to 266 K and pressures up to 20 MPa[J]. International Journal of Refrigeration, 2025, 171: 139-146.
[70] Meng C, Zhang J, Zhang W, Zheng Z, Huang Y(*). Measurement of component concentration and conversion rate from parahydrogen to orthohydrogen in a catalytic converter[J]. International Journal of Hydrogen Energy, 2025, 97: 970-980.
[69] Lv R, Wang Y, Zuo Z, Huang Y(*). Evaluation of a fixed-interface multi-region model for long-term evaporation in cryogenic propellant tanks[J]. Cryogenics, 2025: 104202.
[68] Lv R, Guo S, Huang Y(*), Yang G, Wu J. Evaluation of thermal destratification performance and optimization of jetting parameters in a spray-bar thermodynamic vent system[J]. Applied Thermal Engineering, 2025, 258: 124621.
[67] Huang Y(*), Qin X. Growth behavior of bubbles containing non-condensable gas in superheated cryogenic liquids[J]. Cryogenics, 2025, 146: 104016.
[66] Zhang W, Zhang H, Wang B, Jiang W, Miao R, Huang Y(*). Liquefaction and filling of liquid methane and oxygen bipropellant in a common bulkhead tank equipped with a zero boil-off system[J]. Cryogenics, 2024, 143: 103943.
[65] Zhang W, Wang B, Zhang H, Jiang W, Miao R, Xu A, Li P, Sun P, Huang Y(*). Self-pressurization behavior and zero boil-off feasibility of LOX/LCH4 pair stored in a single-layer metal common bulkhead tank[J]. Energy, 2024, 312: 133671.
[64] Xiao M, Yang G, Huang Y(*), Li C, Cai A, Wu J. CryoFoam: A practical numerical framework for non-isothermal two-phase flows in cryogenic fluids with phase change[J]. International Journal of Hydrogen Energy, 2024, 80: 871-889.
[63] Ni F, Huang Y(*), Cao H. Thermodynamic limits of 4He and 3He Joule–Thomson cryocoolers[J]. Energy, 2024, 313: 133780.
[62] Meng C, Sun J, Yang Y, Bao H, Roskilly AP, Huang Y(*). An improved corresponding states principle model for orthohydrogen thermal conductivity from the triple point to 300 K and 20 MPa[J]. International Journal of Refrigeration, 2024, 163: 45-55.
[61] Hui Y, Li X, Lei R, Hu H, Huang Y(*). Boiling heat transfer characteristics of distributed jet array impingement on metal foam-covered surface[J]. International Journal of Heat and Mass Transfer, 2024, 233: 126038.
[60] Hui Y, Li X, Lei R, Hu H, Huang Y(*). Boiling heat transfer characteristics of confined jet impingement on metal foam with different structures[J]. Applied Thermal Engineering, 2024, 251: 123554.
[59] Zuo Z, Zhu W, Huang Y(*). Experimental investigation on energy and mass transport at steady-state evaporating interface in liquid methane storage tanks[J]. Applied Thermal Engineering, 2023, 226: 120258.
[58] Zuo Z, Zhu W, Huang Y(*), Wang L, Tong L. A review of cryogenic quasi-steady liquid-vapor phase change: Theories, models, and state-of-the-art applications[J]. International Journal of Heat and Mass Transfer, 2023, 205: 123916.
[57] Yang Y, Jiang W, Huang Y(*). Experiment on transient thermodynamic behavior of a cryogenic storage tank protected by a composite insulation structure[J]. Energy, 2023, 270: 126929.
[56] Qin X, Meng C, Huang Y(*). Modeling of pressure control in a cryogenic tank by a thermodynamic vent system considering flash evaporation[J]. International Journal of Heat and Mass Transfer, 2023, 204: 123857.
[55] Meng C, Qin X, Jiang W, Pu L, Liu W, Huang Y(*). Cooling effect analysis on para-ortho hydrogen conversion coupled in vapor-cooled shield[J]. International Journal of Hydrogen Energy, 2023, 48: 15600-15611.
[54] Jiang W, Yang Y, Hu C, Li P, Sun P, Huang Y(*). Experimental study of composite insulation with foam, multilayer and vapor cooled shield for cryogen storage under different vacuum conditions[J]. Cryogenics, 2023, 129: 103604.
[53] Zuo Z, Wang T, Huang Y(*). Interfacial mass and energy transport during steady-state evaporation in liquid oxygen storage tanks[J]. Applied Energy, 2022, 323(119588): 1-9.
[52] Yi T, Yang G, Wang B, Zhuan R, Huang Y(*), Wu J. Dynamics of a gas bubble penetrating through porous media[J]. Physics of Fluids, 2022, 34(012103): 1-13.
[51] Xiao M, Yang G, Huang Y(*), Wu J. Evaluation of different interface-capturing methods for cryogenic two-phase flows under microgravity[J]. Physics of Fluids, 2022, 34: 112124.
[50] Jiang W, Zuo Z, Sun P, Li P, Huang Y(*). Thermal analysis of coupled vapor-cooling-shield insulation for liquid hydrogen-oxygen pair storage[J]. International Journal of Hydrogen Energy, 2022, 47(12): 8000-8014.
[49] Zuo Z, Wu J, Huang Y(*). Validity evaluation of popular liquid-vapor phase change models for cryogenic self-pressurization process[J]. International Journal of Heat and Mass Transfer, 2021, 181(121879): 1-11.
[48] Zuo Z, Jiang W, Qin X, Huang Y(*). A numerical model for liquid-vapor transition in self-pressurized cryogenic containers[J]. Applied Thermal Engineering, 2021, 193(117005): 1-10.
[47] Zuo Z, Jiang W, Pan P, Qin X, Huang Y(*). Quasi-equilibrium evaporation characteristics of oxygen in the liquid–vapor interfacial region[J]. International Communications in Heat and Mass Transfer, 2021, 129(105697): 1-9.
[46] 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[J]. Translational Andrology and Urology, 2021, 10(3): 1121-1132.
[45] Wang Y, Yang G, 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[J]. Chemical Engineering Science, 2021, 229(116037): 1-13.
[44] 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[J]. Applied Thermal Engineering, 2021, 197(117393): 1-10.
[43] Lv RR, Huang YH(*), Wu JY. Thermodynamic analysis of a partially filled hydrogen tank in a wide scale range[J]. Applied Thermal Engineering, 2021, 193(117007): 1-13.
[42] 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[J]. Energy, 2021, 231(120859): 1-12.
[41] 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[J]. Reproductive BioMedicine Online, 2021, 43(4): 687-699.
[40] Zuo Z, Jiang W, Qin X, Huang Y(*). Numerical investigation on full thermodynamic venting process of liquid hydrogen in an on-orbit storage tank[J]. International Journal of Hydrogen Energy, 2020, 45(51): 27792-27805.
[39] 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[J]. Microgravity Science and Technology, 2020, 32(1): 59-68.
[38] Raja AA, Huang Y(*). Novel parabolic trough solar collector and solar photovoltaic/thermal hybrid system for multi-generational systems[J]. Energy Conversion and Management, 2020, 211: 112750: 1-17.
[37] 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[J]. International Journal of Hydrogen Energy, 2019, 44: 20158-20172.
[36] Zuo Z, Jiang W, Yu Z, Huang Y(*). Liquid nitrogen flow in helically corrugated pipes with insertion of high-temperature superconducting power transmission cables[J]. International Journal of Heat and Mass Transfer, 2019, 140: 88-99.
[35] 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.
[34] 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.
[33] 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.
[32] 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.
[31] 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.
[31] 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.
[31] 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.
[30]. 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.
[29]. 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.
[28]. 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.
[27]. Wang B., Huang Y.H.(*), Chen Z.C., Wu J.Y., Li P., Sun P.J. LH2 tank pressure control by thermodynamic vent system (TVS) at zero gravity. IOP Conference Series: Materials Science and Engineering (MSE), 2017, 171: 012041-012046.
[26]. Liu F., Zou S.-S., Zhu Y., Sun C., Liu Y.-F., Wang S.-S., Shi W.-B., Zhu J.-J., Huang Y.-H., Li Z. A novel micro-straw for cryopreservation of small number of human spermatozoon. Asian Journal of Andrology, 2017, 19: 326-329.
[25] Huang Y.H.*, Wang B., Cheng L., Wu J.Y., Wang R.Z. Cooling performance evaluation of a reverse application of a coaxial free-piston Stirling engine. Science and Technology for the Built Environment, 2016, 22(5): 556-564.
[24] Huang Y.H.*, Chen Q. Numerical investigation on thermal effects by adding thin compartmental plates into cooling enclosures with heatleaking walls. Journal of Zhejiang University-SCIENCE A, 2016, 17(6): 485-496.
[23] Chen Q., Huang Y.H.* Wetting behavior of patterned micro-pillar array predicted by an equivalent surface tension model. Journal of Mechanical Science and Technology, 2016, 30(6): 2651-2657.
[22] Jain A., Huang Y.H., Weibel J.A., Garimella S.V. Visualization of Ice Formation Modes and Flow Blockage during Freezing of Water Flowing in a Microchannel. ASME 2016 Summer Heat Transfer Conference (HT2016). Washington, DC, USA; 2016:1-6.
[21].Wang B., Huang Y.H.*, Li P., Sun P., Chen Z., Wu J. Optimization of variable density multilayer insulation for cryogenic application and experimental validation. Cryogenics, 2016, 80: 154-163.
[20] Wang B., Huang Y.H.*, Chen Z.C., Wu J.Y., Li P., Sun P.J. Effect of pressure control range on the thermodynamic venting of liquid hydrogen in a tank at zero gravity 26th International Cryogenic Engineering Conference & International Cryogenic Materials Conference 2016. New Delhi, India; 2016.
[19].Huang Y.H. A deeper look into the thermodynamic perfection of the Debye equation of state for helium-3. Physics Procedia, 2015, 67: 581-590.
[18].Zhang X., Chen J., Yao L., Huang Y., Zhang X., Qiu L. Research and development of large-scale cryogenic air separation in China. Journal of Zhejiang University-SCIENCE A, 2014, 15(5): 309-322.
[17].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.
[16].Chen Q., Huang Y.H.* A practical dimensionless equation for the thermal conductivity of carbon nanotubes and CNT arrays. AIP Advances, 2014, 4: 057115.
[15].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.
[14]. Huang Y.H.*, Li J., Zhu H.W., Wu J.Y., Li P. Experimental optimization of variable density multilayer insulation at cryogenic temperatures. International Cryogenic Engineering Conference 24, May 2012. Fukuoka, Japan. (Invited Talk).
[13]. 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.
[12]. 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
[11]. 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
[10]. Huang Y. H.*, Zhang P., Wang R. Z., Study on Surface Tension of Fluid Helium Three, Int. J. Thermophysics, 2008, 29:1321–1327
[09]. Huang Y. H.*, Wang R. Z., Zhang P., Radebaugh R. The thermal conductivity of liquid helium-3. International Cryogenic Engineering Conference 22. Seoul, Korea; 2008.
[08]. 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.
[07]. 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.
[06]. Huang Y. H., Chen G. B., Arp V. D. Debye equation of state for fluid helium-3. J. Chem. Phys., 2006, 125(5):054505.
[05]. 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.
[04]. Huang Y. H., Chen G. B., Lai B. H., Wang S. Q. p - h and T - s diagrams of 3He from 0.2 K to 20 K. Cryogenics, 2005, 45:687-693.
[03]. 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.
[02]. Radebaugh R., Huang Y. H., O'Gallagher A., Gary J. Calculated Regenerator Performance at 4 K with Helium-4 and Helium-3. Adv. Cryo. Eng., 2008, 53:225-234.
[01]. Zhang P., Huang Y.H., Chen G.B. Helium-4, helium-3 and their applications. Book. National Defence Industry Press, 2006
