þ Doctoral supervisor

Education

Sept. 1999 - Nov. 2003: Ph. D. in Power Engineering and Engineering Thermophysics, School of Energy and Power Engineering, Xi'an Jiaotong University, Xi'an, Shaanxi, P. R. China

Sept. 1993 - June 1996: Master in Engineering Thermophysics, School of Energy and Power Engineering, Xi'an Jiaotong University, Xi'an, Shaanxi, P. R. China

Sept. 1989 - July 1993: Bachelor in Refrigeration and Cryogenics, Department of Power Machinery Engineering, Xi'an Jiaotong University, Xi'an, Shaanxi, P. R. China

Teaching

0000597 Principles of Refrigeration

0007075 Freshmen Seminar Course

0008637 Graduation Project (Thesis)

1220654011 Carbon Neutrality Theory and Technology

1240816001 Working Substances Substitution Technology

2140058301  Fuel Cell Technology

Research Areas

Heat and mass transfer of fuel cells and electrolytic cells

Hydrogen safety, multiphase flow inhydrogen system

Thermal and fluid management of battery and electric vehicles

Medium and high-temperature heat transfer and its enhancement

Energy conservation and carbon neutrality

Selected Papers (*: corresponding author)

[1] ZHOU S H, DU W, CHEN H, YE F, DENG C W*, GUO H*. Effects of droplet dynamical behavior in flow channel of proton exchange membrane fuel cell under vibration conditions on cell performance [J]. Renewable Energy, 2024, 237(part B): article number: 121744.

[2] LI Y T, GUO H*, CHEN H, YE F. Influence of operating conditions on heat and mass transfer in PEMFCs with platinum loading random distributions[J]. International Journal of Heat and Fluid Flow, 2024, 110: article number: 109621.

[3] GUO H*, LIU J X, YE F. Thermal measurement of a unitized regenerative fuel cell during mode switching using thin film sensors [J]. Journal of Power Sources, 2024, 621: article number: 235304.

[4] QIAO J N, GUO H*, YE F, CHEN H. Dynamic variation of heat and mass transfer in a unitized regenerative fuel cell with a stepped channel during mode switching [J]. International Communications in Heat and Mass Transfer, 2024, 158: article number: 107968.

[5] QIAO J N, GUO H*, YE F, CHEN H. Performance evaluation of proton exchange membrane fuel cells adopting rectangular-baffle and tapered flow channels with an equivalent average depth [J]. International Journal of Green Energy, 2024, 21(13): 3023-3039.

[6] YU R J, GUO H*, CHEN H, YE F. Segmented distribution of gas diffusion layer porosity and catalyst layer ionomer content in a polymer electrolyte membrane fuel cell [J]. Chemical Engineering Research and Design, 2024, 209: 412-424.

[7] ZHOU S H, YE F, DU W, CHEN H, DENG C W*, GUO H*. Effect of high-intensity vibration parameter on droplet transport characteristics in gas channel of proton exchange membrane fuel cell [J]. International Communications in Heat and Mass Transfer, 2024, 157: article number: 107785.

[8] QIAO J N, GUO H*, YE F, CHEN H. Effects of channel structure at inlet region on temperature distribution of proton exchange membrane fuel cells [J]. International Journal of Heat and Mass Transfer, 2024, 226: article number: 125456.

[9] SONG J, GUO H*, YE F, MA C F. Two-phase mass transporting under various operating conditions during mode switching of unitized regenerative fuel cell with non-uniform flow channels [J]. International Journal of Green Energy, 2024, 21(7): 1425-1433.

[10] LI Y T, GUO H*, CHEN H, YE F. Randomness effect of platinum loading distribution in a proton exchange membrane fuel cell: A numerical simulation [J]. Electrochimica Acta, 2024, 483: article number: 143996.

[11] QIAO J N, GUO H*, YE F, CHEN H. A nonlinear contraction channel design inspired by typical mathematical curves: Boosting net power and water discharge of PEM fuel cells [J]. Applied Energy, 2024, 357: 122474.

[12] LI Y T, GUO H*, YE F, CHEN H. Platinum loading and electrolyte volume fraction simultaneous gradient distributions in a proton exchange membrane fuel cell: Improving electrical performance and mass transfer [J]. International Communications in Heat and Mass Transfer, 2024, 150: article number: 107173.

[13] YU R J, GUO H*, YE F, CHEN H. Study of optimal step-wise distributions of platinum and carbon loading in cathode catalyst layer of a proton exchange membrane fuel cell [J]. Electrochimica Acta, 2023, 469: article number: 143220.

[14] GUO H*, SONG J, YE F, MA C F. Transient behaviors of a unitized regenerative fuel cell with streamlined flow channel during mode switching from electrolytic cell to fuel cell [J]. International Journal of Green Energy, 2023, 20(14): 1714-1727.

[15] CHEN H, GUO H*, YE F, MA C F. Diffusive and convective mass transportations in proton exchange membrane fuel cells with orientational flow channels having porous blocks [J]. International Journal of Green Energy, 2023, 20(12): 1256-1265.

[16] LIU J X, GUO H*, YE F, MA C F. Cell voltage and two-phase flow in a unitized regenerative fuel cell operating in alternate fuel cell and electrolytic cell modes [J]. International Journal of Green Energy, 2023, 20(12): 1249-1255.

[17] GUO Q, GUO H*, YE F, MA C F. Variation of two-phase species distribution inside a unitized regenerative fuel cell during an electrolytic cell mode [J]. Energy & Fuels, 2023, 37(16): 12353-12359.

[18] YU R J, GUO H*, YE F. Effect of non-uniformly distributed porosity of gas diffusion layers on mass transfer in proton exchange membrane fuel cells [J]. Journal of Porous Media, 2023, 26(11): 47-62.

[19] YU R J, GUO H*, CHEN H, YE F. Effect of ionomer volume fraction within cathode catalyst layer on performance of a PEMFC [J]. Energy, 2023, 277: article number: 127631.

[20] YU R J, GUO H*, CHEN H, YE F. Influence of different parameters on PEM fuel cell output power: A three-dimensional simulation using agglomerate model [J]. Energy Conversion and Management, 2023, 280: article number: 116845.

[21] GUO Q, GUO H*, YE F, MA C F. Experimental and numerical studies of mode switching performance and water transfer in unitized regenerative fuel cell with different channel structures [J]. Energy Conversion and Management, 2023, 280: article number: 116810.

[22] YU R J, GUO H*, CHEN H, YE F. Three segments distribution of gas diffusion layer porosity in a proton exchange membrane fuel cell [J]. Journal of Electroanalytical Chemistry, 2023, 928: article number: 117086.

[23] YU R J, GUO H*, CHEN H, YE F. Heat and mass transfer at the interface between cathode catalyst layer and gas diffusion layer of a proton exchange membrane fuel cell [J]. International Communications in Heat and Mass Transfer, 2023, 140: article number: 106548.

[24] QIAO J N, GUO H*, CHEN H, YE F. Improving round-trip energy efficiency of a unitized regenerative fuel cell by adopting staircase flow channel and counter flow configuration [J]. Energy Conversion and Management, 2022, 271: article number: 116345.

[25] SONG J, GUO H*, YE F, MA C F. A numerical investigation of operating condition effects on unitized regenerative fuel cells with elliptically shallow channel during mode switching [J]. International Journal of Green Energy, 2022, 19(7): 719-732.

[26] YU R J, GUO H*, YE F, CHEN H. Multi-parameter optimization of stepwise distribution of parameters of gas diffusion layer and catalyst layer for PEMFC peak power density [J]. Applied Energy, 2022. 324: article number: 119764.

[27] GUO H*, ZHAO Q, YE F. An experimental study of mutual effects among two-phase flow, heat transfer and performance in proton exchange membrane fuel cells with orientated-type flow channels [J]. International Journal of Energy Research, 2022, 46(11): 15900-15911.

[28] GUO Q, GUO H*, YE F, XING L, MA C F. A numerical study of dynamic behaviors of a unitized regenerative fuel cell during gas purging [J]. International Journal of Hydrogen Energy, 2022, 47(52): 22203-22214.

[29] LI Y T, GUO H*, YE F. Heat and mass transfer in a proton exchange membrane fuel cell with gradient distribution of platinum loading along flow channel direction [J]. International Journal of Energy Research, 2022, 46(7): 8872-8890.

[30] YU R J, GUO H*, YE F, CHEN H. Study on transmission coefficients anisotropy of gas diffusion layer in a proton exchange membrane fuel cell [J]. Electrochimica Acta, 2022, 414: article number: 140163.

[31] LI J F, GUO H*, WU Y T, LEI B, YE F, MA C F, ZHANG Y, JIAO X L. Experimental investigation on solar organic Rankine cycle system with parabolic trough concentrator using nitrate salt as heat transfer and storage fluid [J]. International Journal of Energy Research, 2022, 46(5): 6847-6865.

[32] GUO H*, SONG J, YE F, MA C F. Dynamic response during mode switching of unitized regenerative fuel cells with orientational flow channels [J]. Renewable Energy, 2022, 188: 698-710.

[33] GUO H*, ZHAO Q, YE F. An experimental study on gas and liquid two-phase flow in orientated-type flow channels of proton exchange membrane fuel cells by using a side-view method [J]. Renewable Energy, 2022, 188: 603-618.

[34] GUO Q, GUO H*, YE F, MA C F. Effect of liquid water accumulation in electrolytic cell mode on start-up performance of fuel cell mode of unitized regenerative fuel cells [J]. Energy Conversion and Management, 2022, 254: article number: 115288.

[35] CHEN H, GUO H*, YE F, MA C F. Cell performance and flow losses of proton exchange membrane fuel cells with orientated-type flow channels [J]. Renewable Energy, 2022, 181: 1338-1352.

[36] CHEN H, GUO H*, YE F, MA C F. A numerical study of orientated-type flow channels with porous-blocked baffles of proton exchange membrane fuel cells [J]. International Journal of Hydrogen Energy, 2021, 46(57): 29443-29458.

[37] LI J F, GUO H*, LEI B, WU Y T, YE F, MA C F. An overview on subcritical organic rankine cycle configurations with pure organic fluids [J]. International Journal of Energy Research, 2021, 45(9): 12536-12563.

[38] CHEN H, GUO H*, YE F, MA C F. Improving two-phase mass transportation under non-Darcy flow effect in orientated-type flow channels of proton exchange membrane fuel cells [J]. International Journal of Hydrogen Energy, 2021, 46(41): 21600-21618.

[39] CHEN H, GUO H*, YE F, MA C F. A numerical study on convection and diffusion of mass transfer in proton exchange membrane fuel cells with orientated-type flow channels [J]. International Journal of Energy Research, 2021, 45(4): 5659-5678.

[40] CHEN H, GUO H*, YE F, MA C F. A numerical study of baffle height and location effects on mass transfer of proton exchange membrane fuel cells with orientated-type flow channels [J]. International Journal of Hydrogen Energy, 2021, 46(10): 7528-7545.

[41] CHEN H, GUO H*, YE F, MA C F. Forchheimer’s inertial effect on liquid water removal in proton exchange membrane fuel cells with baffled flow channels [J]. International Journal of Hydrogen Energy, 2021, 46(3): 2990-3007.

[42] CHEN H, GUO H*, YE F, MA C F. Experimental investigations on cell performance of proton exchange membrane fuel cells with orientated-type flow channels [J]. Journal of Energy Engineering, 2020, 146(6): article number: 04020062.

[43] CHEN H, GUO H*, YE F, MA C F. An experimental study of cell performance and pressure drop of proton exchange membrane fuel cells with baffled flow channels [J]. Journal of Power Sources, 2020, 472: article number: 228456.

[44] LI J F, GUO H*, MENG Q P, WU Y T, YE F, MA C F. Thermoeconomic analysis on a molten salt parabolic trough-based concentrated solar organic Rankine cycle system [J]. International Journal of Energy Research, 2020, 44(5): 3395-3411.

[45] GUO H*, GUO Q, YE F, MA C F, ZHU X, LIAO Q. Three-dimensional two-phase simulation of a unitized regenerative fuel cell during mode switching from electrolytic cell to fuel cell [J]. Energy Conversion and Management, 2019, 195: 989-1003.

[46] CHEN H, GUO H*, YE F, MA C F. Modification of the two-fluid model and experimental study of proton exchange membrane fuel cells with baffled flow channels[J]. Energy Conversion and Management, 2019, 195: 972-988.

[47] LIU J X, GUO H*, YUAN X M, YE F, MA C F. Effect of mode switching on the temperature and heat flux in a unitized regenerative fuel cell [J]. International Journal of Hydrogen Energy, 2019, 44(30): 15926-15932

[48] SONG J, GUO H*, YE F, MA C F. Mass transfer and cell performance of a unitized regenerative fuel cell with non-uniform depth channel in oxygen side flow field [J]. International Journal of Energy Research, 2019, 43(7): 2940-2962.

[49] CHEN H, GUO H*, YE F, MA C F, LIAO Q, ZHU X. Mass transfer in proton exchange membrane fuel cells with baffled flow channels and a porous-blocked baffled flow channel design[J]. International Journal of Energy Research, 2019, 43(7): 2910-2929.

[50] GUO H*, CHEN H, YE F, MA C F. Baffle shape effects on mass transfer and power loss of proton exchange membrane fuel cells with different baffled flow channels [J]. International Journal of Energy Research, 2019, 43(7): 2737-2755.

[51] GUO Q, GUO H*, YE F, MA C F, LIAO Q, ZHU X. Heat and mass transfer in a unitized regenerative fuel cell during mode switching[J]. International Journal of Energy Research, 2019, 43(7): 2678-2693.

[52] GUO H*, GUO Q, YE F, MA C F, LIAO Q, ZHU X. Improving the electric performance of a unitized regenerative fuel cell during mode switching through mass transfer enhancement[J]. Energy Conversion and Management, 2019, 188: 27-39.

[53] YUAN X M, GUO H*, YE F, MA C F. Experimental study of gas purge effect on cell voltage during mode switching from electrolyser to fuel cell mode in a unitized regenerative fuel cell[J]. Energy Conversion and Management, 2019, 186: 258-266.

[54] GUO H*, WANG L L, YI X L, YE F, MA C F. Simulation of mode-switching methods’ effect on mass transfer in a unitized regenerative fuel cell [J]. Journal of Energy Engineering, 2019, 145(1): article number: 04018071.

[55] GUO Q, GUO H*, YAN X K, YE F, MA C F. Influence of inclination angle on the start-up performance of a sodium-potassium alloy heat pipe [J]. Heat Transfer Engineering, 2018, 39(17-18): 1627-1635.

[56] JIA J L, GUO H*, YE F, MA C F, KABOV O A. Effect of parallel channels orientation on two-phase flow and performance of a direct methanol fuel cell [J]. Interfacial Phenomena and Heat Transfer, 2018, 6(3): 197-208.

[57] YUAN X M, GUO H*, LIU J X, YE F, MA C F. Influence of operation parameters on mode switching from electrolysis cell mode to fuel cell mode in a unitized regenerative fuel cell [J]. Energy, 2018, 162: 1041-1051.

[58] LI H Y, GUO H*, YE F, MA C F. Experimental investigation on voltage response to operation parameters of a unitized regenerative fuel cell during mode switching from fuel cell to electrolysis cell [J]. International Journal of Energy Research, 2018, 42(10): 3378-3389.

[59] LIU J X, GUO H*, YUAN X M, YE F, MA C F. Experimental investigation on two-phase flow in a unitized regenerative fuel cell during mode switching from water electrolyzer to fuel cell [J]. International Journal of Energy Research, 2018, 42(8): 2823-2834.

[60] GUO H*, GUO Q, YAN X K, YE F, MA C F. Experimental investigation on heat transfer performance of high-temperature thermosyphon charged with sodium–potassium alloy [J]. Applied Thermal Engineering, 2018, 139: 402-408.

[61] GUO H*, LIU X, ZHAO J F, YE F, MA C F. Gas-liquid two-phase flow behaviors and performance characteristics of proton exchange membrane fuel cells in a short-term microgravity environment [J]. Journal of Power Sources, 2017, 353: 1-10.

[62] LIU J X, GUO H*, YE F, MA C F. Two-dimensional analytical model of a proton exchange membrane fuel cell [J]. Energy, 2017, 119: 299-308.

[63] GUO H*, LIU X, ZHAO J F, YE F, MA C F. Effect of low gravity on water removal inside proton exchange membrane fuel cells (PEMFCs) with different flow channel configurations [J]. Energy, 2016, 112: 926-934.

[64] LIU J X, GUO H*, YE F, QIU D C, MA C F. Interfacial phenomena and heat transfer in proton exchange membrane fuel cells [J]. Interfacial Phenomena and Heat Transfer, 2015, 3(3): 259-301.

[65] XUE Y Q, GUO H*, SHANG H H, YE F, MA C F. Simulation of mass transfer in a passive direct methanol fuel cell cathode with perforated current collector [J]. Energy, 2015, 81: 501-510.

[66] GUO H*, WANG M H, LIU J X, NIE Z H, YE F, MA C F. Temperature distribution on anodic surface of membrane electrode assembly in proton exchange membrane fuel cell with interdigitated flow bed [J]. Journal of Power Sources, 2015, 273: 775-783.

[67] GUO H*, LIU X, ZHAO J F, YE F, MA C F. Experimental study of two-phase flow in a proton exchange membrane fuel cell in short-term microgravity condition [J]. Applied Energy, 2014. 136: 509-518.

[68] GUO H*, CHEN Y P, XUE Y Q, YE F, MA C F. Three-dimensional transient modeling and analysis of two-phase mass transfer in air-breathing cathode of a fuel cell [J]. International Journal of Hydrogen Energy, 2013, 38(25): 11028-11037.

[69] GUO H*, WANG M H, YE F, MA C F. Experimental study of temperature distribution on anodic surface of MEA inside a PEMFC with parallel channels flow bed [J]. International Journal of Hydrogen Energy, 2012, 37(17): 13155-13160.

[70] GUO H*, WANG L, YU J, YE F, MA C F. Local resistance of fluid flow across sudden contraction in small channels [J]. Frontiers of Energy and Power Engineering in China, 2010, 4(2): 149-154.

[71] GUO H*, WU F, YE F, ZHAO J F, WAN S X, LV C P, MA C F. Two-phase flow in anode flow field of a small direct methanol fuel cell in different gravity [J]. Science in China Series E - Technological Sciences, 2009, 52(6): 1576-1582.

[72] GUO H*, ZHAO J F, YE F, WU F, LV C P, MA C F. Two-phase flow in fuel cells in short-term microgravity condition [J]. Microgravity Science and Technology, 2008. 20(3-4): 265-269.

[73] LIU X, GUO H*, YE F, MA C F. Water flooding and pressure drop characteristics in flow channels of proton exchange membrane fuel cells [J]. Electrochimica Acta, 2007, 52(11): 3607-3614.

[74] WANG M H, GUO H*, MA C F. Temperature distribution on the MEA surface of a PEMFC with serpentine channel flow bed [J]. Journal of Power Sources, 2006, 157(1): 181-187.

[75] LIU X, GUO H*, MA C F. Water flooding and two-phase flow in cathode channels of proton exchange membrane fuel cells [J]. Journal of Power Sources, 2006, 156(2): 267-280.

[76] GUO H, MA C F*, WANG M H, YE F., YU J, WANG Y, WANG C Y. Experimental investigation of effect of flow bed design on performance of liquid feed direct methanol fuel cells [J]. Fuel Cells, 2004, 4(1-2): 86–89.

[77] GUO H*, MA C F. 2D analytical model of a direct methanol fuel cell [J]. Electrochemistry Communications, 2004, 6(3): 306-312.

Ph.D. opportunity for international students

Non-Chinese citizens who intend to apply for international admission doctoral program in Power Engineering and Engineering Thermophysics, please visit website of BJUT College of International Education for more detailed information and contact Prof. Hang GUO. (hangguo@bjut.edu.cn).