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2019. 07.01

[1]     Z. Bao, Z. Niu and K. Jiao*. Numerical simulation for metal foam two-phase flow field of 

         proton exchange membrane fuel cell. International Journal of Hydrogen Energy, accepted, 2019.

[2]     Z. Yang, Z. Liu, L. Fan, Q. Du and K. Jiao, Modeling of proton exchange membrane fuel cell system 

         considering various auxiliary subsystems, In The energy mix for sustaining our future

         Editors: A. Vasel and D.S.K. Ting, Springer, 2018

[3]     R. Wang, G. Zhang, Z. Hou*, K. Wang, Y. Zhao and K. Jiao*. Comfort index evaluating the water 

         and thermal characteristics of proton exchange membrane fuel cell. Energy Conversion and 

         Management, accepted, 2019.

[4]     Y. Du, Y. Qin, G. Zhang, Y. Yin, K. Jiao*, and Q. Du*. Modelling of effect of pressure on co-electrolysis of 

         water and carbon dioxide in solid oxide electrolysis cell. 

         International Journal of Hydrogen Energy, accepted, 2019

[5]     X. Liu, Y. Li…, Y. Yin*, Y. Qin, K. Jiao… and M. Guiver*. Magnetic field alignment of stable 

         proton-conducting channels in an electrolyte membrane. Nature Communications,  accepted, 2019

[6]     Y. Qin, Y. Yin, K. Jiao and Q. Du*. Effects of needle orientation and gas velocity on water transport 

         and removal in a modified PEMFC gas flow channel having a hydrophilic needle.

         International Journal of Energy Research, accepted, 2018

[7]     S. Huo, K. Jiao* and J.W. Park*. On the water transport behavior and phase transition mechanisms in 

         cold start operation of PEM fuel cell. Applied Energy, 233, 776-788, 2019

[8]     Y. Yin, J. Liu, Y. Chang,  Y. Zhu, X. Xie, Y. Qin, J. Zhang*, K. Jiao ... and M. Guiver*. Design of 

         Pt-C/Fe-NSC cathode dual catalyst layers for proton exchange membrane fuel cells under low humidity. 

         Electrochimica Acta, 296, 450-457, 2019

[9]     H. Deng, K. Jiao*, Y. Hou, J.W. Park* and Q. Du. A lattice Boltzmann model for multi-component 

         two-phase gas-liquid flow with realistic fluid properties. 

         International Journal of Heat and Mass Transfer, 128, 536-549, 2019

[10]   G. Zhang and K. Jiao*. Three-dimensional simulation of water management for high-performance

         proton exchange membrane fuel cell. SAE International Journal Alternative Powertrain 7(3), 233-247, 2018

[11]   Z. Niu, Z. Bao, J. Wu, Y. Wang* and K. Jiao*. Two-phase flow in the mixed-wettability gas 

         diffusion layer of proton exchange membrane fuel cells. Applied Energy, 232, 443-450, 2018

[12]   Z. Niu, J. Wu, Y. Wang* and K. Jiao*. Investigating the in-/through-plane effective diffusivities of dry and 

         partially-saturated gas diffusion layers. Journal of Electrochemical Society, 165(11), F986-F993, 2018

[13]   Z. Niu, Y. Wang*, K. Jiao* and J. Wu. Two-phase flow dynamics in the gas diffusion layer of proton 

         exchange membrane fuel cells: Volume of fluid modelling and comparison with experiment. 

         Journal of Electrochemical Society, 165(9), F613-F620, 2018

[14]   Y. Jiang, Z. Yang, K. Jiao* and Q. Du. Sensitivity analysis of uncertain parameters based on 

         an improved proton exchange membrane fuel cell analytical model. 

         Energy Conversion and Management, 164, 639-654, 2018

[15]   G. Zhang, B. Xie, Z. Bao, Z. Niu and K. Jiao*. Multi-phase simulation of proton exchange 

         membrane fuel cell with 3D fine mesh flow field. 

         International Journal of Energy Research, 42(15), 4697-4709, 2018

[16]   G. Zhang and K. Jiao*. Three-dimensional multi-phase simulation of PEMFC at high current density

         utilizing Eulerian-Eulerian model and two-fluid model. 

         Energy Conversion and Management, 176, 409-421, 2018

[17]   G. Zhang and K. Jiao*. Multi-phase models for water and thermal management of proton 

         exchange membrane fuel cell: A review. Journal of Power Sources, 391, 120-133, 2018

[18]   Y. Wang, R. Zhan, Y. Qin, G. Zhang, Q. Du* and K. Jiao*. Three-dimensional modeling of pressure

          effect on operating characteristics and performance of solid oxide fuel cell. 

          International Journal of Hydrogen Energy, 43, 20059-20076, 2018

[19]   L. Fan, Z. Niu, G. Zhang and K. Jiao*. Optimization design of the cathode flow channel for proton exchange 

         membrane fuel cells. Energy Conversion and Management, 171, 1813-1821, 2018

[20]   Z. Niu, L. Fan, Z. Bao and K. Jiao*. Numerical investigation of innovative 3D cathode flow channel in

         proton exchange membrane fuel cell. International Journal of Energy Research, 42, 3328–3338, 2018 

[21]   Y. Hou, H. Deng, Q. Du and K. Jiao*. Multi-component multi-phase lattice Boltzmann modeling of droplet 

         coalescence in flow channel of fuel cell. Journal of PowerSources, 393, 83-91, 2018

[22]   C, Wu, Z. Yang, S. Huo, A.U.H. Najmi, Q. Du* and K. Jiao*. Modeling and optimization of electrode 

         structure design for solid oxide fuel cell. International Journal of Hydrogen Energy, 43, 14648-14664, 2018

[23]   B. Wang, H. Deng and K. Jiao*. Purge strategy optimization of proton exchange membrane fuel cell with 

         anode recirculation. Applied Energy, 225, 1-13, 2018

[24]   B. Wang, K. Wu, Z. Yang and K. Jiao*. A quasi-2D transient model of proton exchange membrane 

         fuel cell with  anode recirculation. Energy conversion and management, 171, 1463-1475, 2018

[25]   Y. Luo and K. Jiao*. Cold start of proton exchange membrane fuel cell. 

         Progress in Energy and Combustion Science, 64, 29-61, 2018

[26]    S. Huo, J. Zhou, T. Wang, R. Chen and K. Jiao*. Experimental and analytical analysis

          of polarization and water transport behaviors of hydrogen alkaline membrane fuel 

          cell. Journal of Power Sources, 382, 1-12, 2018.

[27]    J. Sun, G. Zhang, T. Guo, K. Jiao* and X Huang*. A three-dimensional multi-phase 

          numerical model of DMFC utilizing Eulerian-Eulerian model. Applied Thermal 

          Engineering, 132, 140-153, 2018

[28]    Z. Niu, K. Jiao*, Y. Wang, Q. Du and Y. Yin. Numerical simulation of two-phase 

          cross flow in the gas diffusion layer microstructure of proton exchange membrane 

          fuel cells. International Journal of Energy Research, 42, 802-816, 2018

[29]    X. Xie, H. Yu, H. Deng, G. Zhang, T. Guo, J. Sun, and K. Jiao*. Modeling of passive 

          vapor feed alkaline membrane direct methanol fuel cell. Applied Thermal Engineering,

          131, 920-932, 2018

[30]    X. Xie, R. Wang, K. Jiao*, G. Zhang, J. Zhou and Q. Du. Investigation of the effect of

          micro-porous layer on PEM fuel cell cold start operation. Renewable Energy, 

          117, 125-134, 2018

[31]    Z. Li, X. He, Z. Jiang*... and K. Jiao. Enhancing hydroxide conductivity and stability 

          of anion exchange membrane by blending quaternary ammonium functionalized 

          polymers. Electrochimica Acta, 240, 486-494, 2017

[32]    S. Huo, N.J. Cooper, T.L. Smith, J.W. Park* and K. Jiao*. Experimental investigation 

          on PEM fuel cell cold start behavior containing porous metal foam as cathode flow

          distributor. Applied energy, 203, 101-114,  2017

[33]    Z. Yang, Q. Du, S. Huo and K. Jiao*. Effect of membrane electrode assembly design 

          on the cold start process of proton exchange membrane fuel cells. International

          Journal of Hydrogen Energy, 42, 25372-25387, 2017

[34]    L. Fan, G. Zhang and K. Jiao*. Characteristics of PEMFC operating at high current 

          density with low external humidification. Energy Conversion and Management, 

          150, 763-77, 2017

[35]    F. Yue, G. Zhang, J. Zhang*, J. Lin and K. Jiao*. Numerical simulation of transport 

          characteristics of Li-ion battery in different discharging modes. Applied Thermal

          Engineering, 126, 70-80, 2017

[36]    G. Zhang, L. Fan, J. Sun and K. Jiao*. A 3D model of PEMFC considering detailed

          multiphase flow and anisotropic transport properties. International Journal of 

          Heat and Mass Transfer, 115, 714-724, 2017

[37]    D. Jiao, F. Zhang, Q. Du*, Z. Niu and K. Jiao*. Direct numerical simulation of near

          nozzle diesel jet evolution with full temporal-spatial turbulence inlet profile. Fuel, 

          207, 22-32, 2017

[38]    K. Jiao and M. Ni. Challenges and opportunities in modelling of proton exchange 

          membrane fuel cells (PEMFC). International Journal of Energy Research, 41, 1793-1797, 2017

[39]    X. Xie, G. Zhang, J. Zhou and K. Jiao*. Experimental and theoretical analysis of

           ionomer/carbon ratio effect on PEM fuel cell cold start operation. International 

           Journal of Hydrogen Energy, 42, 12521-12530, 2017

[40]    S. Huo, J.W. Park*, P. He, D. Wang and K. Jiao*. Analytical modeling of liquid

           saturation jump effect for hydrogen alkaline anion exchange membrane fuel 

           cell. International Journal of Heat and Mass Transfer, 112, 891-902, 2017

[41]    Y. Hou, G. Zhang, Y. Qin, Q. Du* and K. Jiao*. Numerical simulation of gas 

           liquid two-phase flow in anode channel of low-temperature fuel cells. 

           International Journal of Hydrogen Energy, 42, 3250-3258, 2017

[42]    Z. Niu, R. Wang, K. Jiao*, Q. Du and Y. Yin. Direct numerical simulation of 

           low Reynolds number turbulent air-water transport in fuel cell flow channel. 

           Science Bulletin, 62, 31-39, 2017

[43]    T. Guo, J. Sun, J. Zhang, H. Deng, X. Xie, K. Jiao* and X. Huang*. Transient analysis 

           of passive vapor-feed DMFC fed with neat methanol.International Journal of Hydrogen

           Energy, 42, 3222-3239, 2017

[44]    Y. Yin, M. Fan, K. Jiao, Q. Du and Y. Qin*. Numerical investigation of an ejector for anode

           recirculation in proton exchange membrane fuel cell system. Energy Conversion and 

           Management, 126, 1106-1117, 2016

[45]    H. Deng, D. Wang, R. Wang, X. Xie, Y. Yin, Q. Du and K. Jiao*. Effect of electrode design and 

            operating condition on performance of hydrogen alkaline membrane fuel cell. Applied Energy,

            183, 1272-1278, 2016

[46]    Z. Niu, K. Jiao*, F. Zhang, Q. Du and Y. Yin. Direct numerical simulation of two-phase turbulent

            flow in fuel cell flow channel. International Journal of Hydrogen Energy, 41, 3147-3152, 2016

[47]    B. Wang, Y. Zhou, Q. Du, Y. Yin and K Jiao*. Transient investigation of passive alkaline membrane

            direct methanol fuel cell. Applied Thermal Engineering, 100, 1245-1258, 2016

[48]    L. Fan, G. Zhang, R. Wang and K. Jiao*. A comprehensive and time-efficient model for 

            determination of thermoelectric generator length and  cross-section area. Energy Conversion 

            and Management, 122, 85-94, 2016

[49]    G. Zhang, K. Jiao*, Z. Niu, H. Diao, Q. Du, H. Tian and G. Shu. Power and efficiency factors for 

            comprehensive evaluation of thermoelectric generator materials. International Journal of Heat

            and Mass Transfer, 93, 1034-1037, 2016

[50]    H. Deng, D. Wang, X. Xie, Y. Zhou, Y. Yin, Q. Du and K. Jiao*. Modeling of hydrogen alkaline 

            membrane fuel cell with interfacial effect and water management optimization. Renewable Energy, 

            91, 166-177, 2016

[51]    T. Guo, J. Sun, H. Deng, X. Xie, K. Jiao* and X. Huang*. Investigation of cell orientation effect 

          on transient operation of passive direct methanol fuel cells. 

          International Journal of Hydrogen Energy, 41, 6493-6507, 2016

[52]    H. Huang, Y. Zhou, H. Deng, X. Xie, Q. Du, Y. Yin and K. Jiao*. Modeling of high temperature

          proton exchange membrane fuel cell start-up processes.

          International Journal of Hydrogen Energy, 41, 3113-3127, 2016

[53]    Y. Luo, B. Jia, K. Jiao*, Q. Du, Y. Yin, H. Wang and J. Xuan*. Catalytic hydrogen–oxygen reaction

          in anode and cathode for cold start of proton exchange membrane fuel cell. International Journal

          of Hydrogen Energy, 40, 10293-10307, 2015

[54]    G. Zhang, L. Fan, Z. Niu, K. Jiao*, H. Diao, Q. Du and G. Shu. A comprehensive design method

          for segmented thermoelectric generator. Energy Conversion and Management, 106, 510-519, 2015

[55]    T. Guo, J. Sun, H. Deng, K. Jiao* and X. Huang*. Transient analysis of passive direct methanol 

          fuel cells with different operation and design parameters. International Journal of 

          Hydrogen Energy, 40, 14978-14995, 2015

[56]    H. Xu, H. Zhang, H. Wang, D. Leung, L. Zhang, J. Cao, K. Jiao* and J. Xuan*. Counter-flow 

          formic acid microfluidic fuel cell with high fuel utilization exceeding 90%. 

          Applied Energy, 160, 930-936, 2015

[57]    J. Sun, T. Guo, H. Deng, K. Jiao* and X. Huang*. Effect of electrode variable contact angle 

          on the performance and transport characteristics of passive direct methanol fuel cells. 

          International Journal of Hydrogen Energy, 40, 10568-10587, 2015

[58]    Z. Niu, S. Yu, H. Diao, Q. Li, K. Jiao*, Q. Du, H. Tian and G. Shu. Elucidating modeling aspects 

          of thermoelectric generator. International Journal of Heat and Mass Transfer, 85, 12-32, 2015

[59]    Y. Ma, F. Bai, Q. Chang, J. Yi, K. Jiao and Q. Du*. An experimental study on the atomization 

          characteristics of impinging jets of power law fluid. Journal of Non-Newtonian Fluid Mechanics, 

          217, 49-57, 2015

[60]    L. Ye, K. Jiao, Q. Du and Y, Yin*. Exergy analysis of high-temperature proton exchange 

          membrane fuel cell systems. International Journal of  Green Energy, 12, 917-929, 2015

[61]    Q. Du, H. Diao, Z. Niu, G. Zhang, G. Shu and K. Jiao*. Effect of cooling design on the characteristics 

          and performance of thermoelectric generator used for internal combustion engine. 

          Energy Conversion and Management, 101, 9-18, 2015

[62]    S. Yu, Q. Du*, H. Diao, G. Shu and K. Jiao*. Effect of vehicle driving conditions on the performance 

          of thermoelectric generator. Energy Conversion and Management, 96, 363-376, 2015

[63]    K. Jiao, S. Huo, M. Zu, D. Jiao, J. Chen and Q. Du*. An analytical model for hydrogen alkaline anion 

          exchange membrane fuel cell. International Journal of Hydrogen Energy, 40, 3300-3312, 2015

[64]    H. Deng, D. Jiao, M. Zu, J. Chen, K. Jiao* and X. Huang. Modeling of passive alkaline membrane

          direct methanol fuel cell. Electrochimica Acta, 154, 430-446, 2015

[65]    S. Yu, Q. Du*, H. Diao, G. Shu and K. Jiao*. Start-up modes of thermoelectric generator based on 

           vehicle exhaust waste heat recovery.Applied Energy, 138, 276-290, 2015

[66]    Y. Yin, T. Wu, P. He, Q. Du and K. Jiao*. Numerical simulation of two-phase cross flow in

          microstructure of gas diffusion layer with variable contact angle. 

          International Journal of Hydrogen Energy, 39, 15772-15785, 2014

[67]    Q. Du, B. Jia, Y. Luo, J. Chen, Y. Zhou and K. Jiao*. Maximum power cold start mode of 

          proton exchange membrane fuel cell. International Journal of Hydrogen Energy, 

          39, 8390-8400, 2014

[68]    Y. Luo, K. Jiao* and B. Jia. Elucidating the constant power, current and voltage cold start 

          modes of proton exchange membrane fuel cell. International Journal of Heat and Mass Transfer, 

          77, 489-500, 2014

[69]    H. Deng, J. Chen, K. Jiao* and X. Huang. An analytical model for alkaline membrane 

          direct methanol fuel cell. International Journal of Heat and Mass Transfer, 74, 376-390, 2014

[70]    R. Liu, J. Chen, J. Xun, K. Jiao* and Q. Du. Numerical investigation of thermal behaviors

          in lithium-ion battery stack discharge. Applied Energy, 132, 288-297, 2014

[71]    Y. Yin, J. Wang, X. Yang, Q. Du, J. Fang and K. Jiao*. Modeling of high temperature 

          proton exchange membrane fuel cells with novel sulfonated polybenzimidazole membranes. 

          International Journal of Hydrogen Energy, 39, 13671-13680, 2014

[72]    Z. Niu, H. Diao, S. Yu, K. Jiao*, Q. Du and G. Shu. Investigation and design optimization of 

          exhaust-based thermoelectric generator system for internal combustion engine. 

          Energy Conversion and Management, 85, 85-101, 2014

[73]    Y. Zhou, Y. Luo, S. Yu and K. Jiao*. Modeling of cold start processes and performance 

          optimization for proton exchange membrane fuel cell stacks. Journal of Power Sources, 

          247, 738-748, 2014

[74]    K. Jiao, P. He, Q. Du* and Y. Yin. Three-dimensional multiphase modeling of alkaline anion 

          exchange membrane fuel cell. International Journal of Hydrogen Energy, 

          39, 5981-5995, 2014

[75]    K. Jiao, J. Bachman, Y. Zhou and J.W. Park*. Effect of induced cross flow on flow pattern 

          and performance of proton exchange membrane fuel cell. Applied Energy, 115, 75-82, 2014

[76]    N. Bao, Y. Zhou, K. Jiao*, Y. Yin, Q. Du and J. Chen. Effect of gas diffusion layer deformation

          on liquid water transport in proton exchagne membrane fuel cell. Engineering Applications 

          of Computational Fluid Mechanics, 8, 26-43, 2014

[77]    Y. Qin, X. Li*, K. Jiao, Q. Du and Y. Yin. Effective removal and transport of water in a PEM fuel cell

           flow channel having a hydrophillic plate. Applied Energy, 113, 116-126, 2014

[78]    D. Wang, N. Zamel, K. Jiao*, Y. Zhou, S. Yu, Q. Du and Y. Yin. Life cycle analysis of 

           internal combustion engine, electric and fuel cell vehicles for China. Energy, 59, 402-412, 2013

[79]    Y. Qin, X. Li*, Q. Du, Y. Yin and K. Jiao. Effect of wettability on water removal from 

           the gas diffusion layer surface in a novel proton exchange membrane fuel cell flow channel. 

           International Journal of Hydrogen Energy, 38, 12879-12885, 2013

[80]    Y. Zhou, K. Jiao, Q. Du, Y. Yin and X. Li*. Gas diffusion layer deformation and its effect 

          on the transport characteristics and performance of proton exchange membrane fuel cell. 

          International Journal of Hydrogen Energy, 38, 12891-12903, 2013

[81]    Q. Chang, M. Zhang, F. Bai, J. Wu, Z. Xia, K. Jiao and Q. Du*. Instability analysis of a power 

          law liquid jet. Journal of Non- Newtonian Fluid Mechanics, 198, 10-17, 2013

[82]    H. Deng, S. Huo, Y. Chang, Y. Zhou and K. Jiao*. Transient analysis of alkaline anion exchange 

          membrane fuel cell anode. International Journal of Hydrogen Energy, 38, 6509-6525, 2013

[83]    Y. Qin, Q. Du, Y. Yin, K. Jiao and X. Li*. Numerical investigation of water dynamics in a novel proton

          exchange membrane fuel cell flow channel. Journal of Power Sources, 222, 150-160, 2013

[84]    Y. Luo, Q. Guo, Q. Du, Y. Yin and K. Jiao*. Analysis of cold start processes in proton exchange membrane 

          fuel cell stacks. Journal of Power Sources, 224, 99-114, 2013

[85]    Q. Guo, Y. Luo and K. Jiao*. Modeling of assisted cold start processes with anode catalytic 

          hydrogen-oxygen reaction in proton exchange membrane fuel cell. International Journal 

          of Hydrogen Energy, 38, 1004-1015, 2013

[86]    J. Xun, R. Liu and K. Jiao*. Numerical and analytical modeling of lithium ion battery thermal 

          behaviors with different cooling designs. Journal of Power Sources, 233, 47-61, 2013.

[87]    K. Jiao, Y. Zhou, Q. Du, Y. Yin, S. Yu and X. Li*. Numerical simulations of carbon monoxide poisoning

          in high temperature proton exchange membrane fuel cells with various flow channel designs. 

          Applied Energy, 104, 21-41, 2013

[88]    S. Huo, H. Deng, Y. Chang and K. Jiao*. Water management in alkaline anion exchange membrane

          fuel cell anode. International Journal of Hydrogen Energy, 37, 18389-18402, 2012

[89]    K. Jiao, X. Li, Y. Yin, Y. Zhou, S. Yu and Q. Du*. Effects of various operating conditions on the hydrogen

          absorption processes in a metal hydride tank. Applied Energy, 94, 257-269, 2012

[90]    B. Mondal, K. Jiao and X. Li*. Three-dimensional simulation of water droplet movement in PEM 

          fuel cell flow channels with hydrophilic surfaces. International Journal of Energy Research, 

          35, 1200-1212, 2011

[91]    K. Jiao, I.E. Alaefour, G. Karimi and X. Li*. Cold start characteristics of proton exchange 

          membrane fuel cells. International Journal of Hydrogen Energy, 36, 11832-11845, 2011

[92]    I.E. Alaefour, G. Karimi, K. Jiao and X. Li*. Measurement of current distribution in a proton 

          exchange membrane fuel cell with various flow arrangements – a parametric study. 

          Applied Energy, 56, 2591-2598, 2011

[93]    K. Jiao and X. Li*. Water transport in polymer electrolyte membrane fuel cells. 

          Progress in Energy and Combustion Science, 37, 221-291, 2011

[94]    K. Jiao, I.E. Alaefour, G. Karimi and X. Li*. Simultaneous measurement of current and

          temperature distributions in a proton exchange membrane fuel cell during cold start

          processes. Electrochimica Acta, 56, 2967-2982, 2011

[95]    I.E. Alaefour, G. Karimi, K. Jiao, S. Al Shakhshir and X. Li*. Experimental study on the 

          effect of reactant flow arrangements on the current distribution in proton exchange 

          membrane fuel cells. Electrochimica Acta, 56, 2591-2598, 2011

[96]    K. Jiao, I.E. Alaefour and X. Li*. Three-dimensional non-isothermal modeling of carbon

          monoxide poisoning in high temperature proton exchange membrane fuel cells with

          phosphoric acid doped polybenzimidazole membranes. Fuel, 90, 568-582, 2011

[97]    K. Jiao and X. Li*. Effect of surface dynamic wettability in proton exchange membrane

          fuel cells. International Journal of Hydrogen Energy, 35, 9095-9103, 2010

[98]    K. Jiao and X. Li*. A three-dimensional non-isothermal model of high temperature 

          proton exchange membrane fuel cells with phosphoric acid doped polybenzimidazole

          membranes. Fuel Cells, 10, 351-362, 2010

[99]    K. Jiao and X. Li*. Cold start analysis of polymer electrolyte membrane fuel cells. 

          International Journal of Hydrogen Energy, 35, 5077-5094, 2010

[100]   K. Jiao, J. Park and X. Li*. Experimental investigations on liquid water removal 

           from the gas diffusion layer by reactant flow. Applied Energy, 87, 2770-2777, 2010

[101]   J. Park, K. Jiao and X. Li*. Numerical investigations on liquid water removal from 

            the porous gas diffusion layer by reactant flow. Applied Energy, 87, 2180-2186, 2010

[102]   K. Jiao and X. Li*. Effects of various operating and initial conditions on cold start 

           performance of polymer electrolyte membrane fuel cells. International Journal 

           of Hydrogen Energy, 34, 8171-8184, 2009

[103]   K. Jiao and X. Li*. Three-dimensional multiphase modeling of cold start processes

           in polymer electrolyte membrane fuel cells. Electrochimica Acta, 54, 6876-6891, 2009

[104]   K. Jiao, H. Sun, X. Li*, H. Wu, E. Krivitzky, T. Schram and L.M. Larosiliere. Numerical 

           investigation of the influence of variable diffuser vane angles on the performance 

           of a centrifugal compressor. Proceeding of the Institute of Mechanical Engineers 

           Part D: Journal of Automobile Engineering, 223, 1061-1070, 2009

[105]  K. Jiao, H. Sun, X. Li*, H. Wu, E. Krivitzky, T. Schram and L.M. Larosiliere. Numerical 

          simulation of air flow through turbocharger compressors with dual volute design

          Applied Energy, 86, 2494-2506, 2009

[106]  K. Jiao and B. Zhou*. Accelerated numerical test of liquid behaviour across gas 

          diffusion layer in PEM fuel cell cathode. Journal of Fuel Cell Science and Technology

          5, 041011-1-041011-10, 2008

[107]  K. Jiao and B. Zhou*. Effects of electrode wettabilities on liquid water behaviours 

          in PEM fuel cell cathode.  Journal of Power Sources, 175, 106-119, 2008

[108]  K. Jiao and B. Zhou*. Innovative gas diffusion layers and their water removal 

          characteristics in PEM fuel cell cathode. Journal of Power Sources, 169, 296-314, 2007

[109]  K. Jiao, B. Zhou* and P. Quan. Liquid water transport in straight micro-parallel 

          channels with manifolds for PEM fuel cell cathode. Journal of Power 

          Sources, 157, 226-243, 2006

[110]  K. Jiao, B. Zhou* and P. Quan. Liquid water transport in parallel serpentine channels 

          with manifolds on cathode side of a PEM fuel cell stack. Journal of Power 

          Sources, 154, 124-137, 2006

(* Corresponding author)






相关链接: 天津大学 | 天津大学机械工程学院 | 天津大学内燃机燃烧学国家重点实验室