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姓 名 涂正凯(研究员) 性 别
职 称 研究员 毕业学校 伟德国际1946源自英国
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联系方式
邮 箱 tzklq@hust.edu.cn
通讯地址 伟德国际1946官方网609室 430074
个人资料简介
涂正凯,男,研究员(博导),华中学者。主要燃料电池、制氢及储能方面的研究。

教育及工作经历

    受教育经历
    2004/09-2009/06,伟德国际1946源自英国,伟德国际1946官方网,博士
    2000/09-2004/06,伟德国际1946源自英国,环境科学与工程学院,学士
    研究工作经历
    2017/08-至今,   伟德国际1946源自英国,伟德国际1946官方网,研究员
    2016/09-2017/08,武汉理工大学,材料复合新技术国家重点实验室,研究员
    2015/05-2016/04,新加坡南洋理工大学,访问学者
    2011/09-2016/09,武汉理工大学,材料复合新技术国家重点实验室,副研究员
    2009/09-2011/09,武汉理工大学,材料复合新技术国家重点实验室,博士后

研究方向

    燃料电池关键材料与电堆的开发;燃料电池汽车与无人机动力系统开发;燃料电池在新能源建筑中的应用;电解水制氢等

科研项目

    主持的主要项目:
    (1)国家自然科学基金面上项目:潜器用燃料电池重力辅助排水机制的理论分析与实验研究(No. 51476119);
    (2)国家自然科学基金面上项目:氢氧燃料电池脉冲排放过程水分脱离与再生行为的理论分析与实验研究(No.51776144);
    (3)国家自然科学基金面上项目:极地考察站用可再生能源制氢及燃料电池发电系统的水管理机制研究(No. 52076096);
    (4)国家重点研发计划子课题(公共安全风险防控应用技术装备):膜分离与催化重整耦合高效制氢技术及金属双极板燃料电池电堆的研发(No.2018YFC0810000);
    (5)湖北省自然科学基金(杰青):燃料电池水淹过程碳腐蚀行为的动力学机制研究(No. 2016CFA041);
    (6)湖北省自然科学基金(创新群体):高效快速响应燃料电池关键技术(No. 2020CFA040);
    (7)武汉市应用基础前沿项目:车用燃料电池高电流密度下的水管理机制研究(No. 2020010601012205);
    (8)上海汽车集团股份有限公司:燃料电池电堆寿命加速工况制定及衰减分析;
    (9)上海汽车工业科技发展基金会:全功率燃料电池汽车整车散热系统仿真及优化;
    (10)珠海格力电器股份有限公司:车用燃料电池技术的发展及冷凝技术的应用;
    (11)上海汽车集团股份有限公司:三维多孔流场水传输可视化测试分析;
    参与的项目:
    (12)863重点项目(2008AA050403):高温质子交换膜电极、电池堆技术的研发及其综合评估;
    (13)863重大课题(2008AA11A106):燃料电池电堆及关键材料研制开发;
    (14)863重大课题(2012AA110601):车用燃料电池电堆及膜电极关键技术;
    (15)863主题课题(2013AA110201):燃料电池低成本膜电极组件/双极板及电堆制备技术研究;
    (16)国家重点研发计划(2020YFB1506300):醇类重整制氢与冷热电联供的燃料电池系统集成技术;

代表性论文与专利

    (1)    专著:涂正凯,余意。质子交换膜燃料电池水热管理技术基础及应用,科学出版社,2017.
    (2)    Z.Y. Huang, J. Shen, S. H. Chan, Z. K. Tu*. Transient response of performance in a proton exchange membrane fuel cell under dynamic loading. Energy Conversion and Management, 2020, 226:113492
    (3)    C. Y. Gong, J. Shen *, Y. Yu, K. Q. Wang, Z. K. Tu. Heat dissipation characteristic in the intake grille and radiator of a fuel cell vehicle. International Journal of Green Energy, 2020, 17: 591-601
    (4)    C.Y. Gong, J. Shen*, Y. Yu, K. Q. Wang, Z. K. Tu*. A novel radiator structure for enhanced heat transfer used in PEM fuel cell vehicle. International Journal of Heat and Mass Transfer, 2020, 157: 119926
    (5)    J. Shen, Z.K. Tu*, S. H. Chan. Evaluation criterion of different flow field patterns in a proton exchange membrane fuel cell. Energy Conversion and Management, 2020, 213: 112841
    (6)    J. Shen, L. Xu, H.W. Chang, Z.K. Tu*, S. H. Chan. Partial flooding and its effect on the performance of a proton exchange membrane fuel cell. Energy Conversion and Management, 2020, 207:112537
    (7)    J.Shen, Z.K. Tu*, S. H. Chan. Performance enhancement in a proton exchange membrane fuel cell with a novel 3D flow field. Applied Thermal Engineering, 2020, 164:114464
    (8)    J.Shen, Z.K. Tu*, S. H. Chan. Enhancement of mass transfer in a proton exchange membrane fuel cell with blockage in the flow channel. Applied Thermal Engineering, 2019,149:1408-1418
    (9)    H.W. Chang, C. Duan, X.X. Xu, S.M. Shu, Z.K. Tu*. Technical performance analysis of a micro-combined cooling, heating and power system based on solar energy and PEM fuel cell. International Journal of Hydrogen Energy, 2019, 44(38): 21080-21089
    (10)    H.C. Pei, K. Meng, H.W. Chang, Y.L. Zhang, J. Shen, Z.K. Tu*, S.H. Chan. Performance improvement in a proton exchange membrane fuel cell with separated coolant flow channels in the anode and cathode. Energy Conversion and Management, 2019, 187:76-82
    (11)    J. Shen, L.P. Zeng, Z.K. Tu, Z.C. Liu, W. Liu. Numerical investigation of temperature distribution of proton exchange membrane fuel cells at high current density. Journal of porous media, 2019, 22(7):813-829
    (12)    H.W. Chang, X.X. Xu, J.Shen, S.M. Shu, Z.K. Tu*.Performance analysis of a micro-combined heating and power system with PEM fuel cell as a prime mover for a typical household in North China. International Journal of Hydrogen Energy, 2019, 44(38): 24965-24976
    (13)    G.J. Wang, Y. Yu, H. Liu, C.L, Gong, S. Wen, X.H, Wang, Z.K. Tu*. Progress on design and development of polymer electrolyte membrane fuel cell systems for vehicle applications: A review, Fuel Processing Technology, 2018,179:203-228
    (14)    Y.H. Cai, Z. Fang, B. Chen, T.Q. Yang, Z.K. Tu*. Numerical study on a novel 3D cathode flow field and evaluation criteria for the PEM fuel cell design, Energy, 2018, 161, 28-37    
    (15)    B. Chen, Y.H. Cai, J. Shen, Z.K. Tu*, S.H. Chan. Performance degradation of a proton exchange membrane fuel cell with dead-ended cathode and anode. Applied Thermal Engineering, 2018,132, 80-86.    
    (16)    B. Chen, Z.K. Tu*, S.H. Chan. Performance degradation and recovery characteristics during gas purging in a proton exchange membrane fuel cell with a dead-ended anode. Applied Thermal Engineering, 2018,129, 968-978
    (17)    G.J.Wang, F. Huang, Y. Yu, S. Wen, Z.K. Tu*. Degradation behavior of a proton exchange membrane fuel cell stack under dynamic cycles between idling and rated condition. International Journal of Hydrogen Energy, 2018, 43: 4471-4481.
    (18)    B. Chen, Y.H. Cai, Z..K. Tu*, S.H. Chan, J. Wang, Y. Yu. Gas purging effect on the degradation characteristic of a proton exchange membrane fuel cell with dead-ended mode operation I. With Different electrolytes, Energy, 2017, 141, 40-49
    (19)    H.W. Chang, Z.M. Wan*, Y. Zheng, X. Chen, S.M. Shu, Z.K. Tu*, S.H. Chan, R. Chen, X.D. Wang. Energy and exergy based working fluid selection and performance analysis of a high-temperature PEMFC-based micro combined cooling heating and power system. Applied Energy, 2017, 204: 446-458.
    (20)    B. Chen, Y.H. Cai, Y. Yu, J. Wang, Z.K. Tu*, S. H. Chan. Gas purging effect on the degradation characteristic of a proton exchange membrane fuel cell with dead-ended mode operation II. Under different operation pressures. Energy, 2017, 131: 50-57
    (21)    C.Z. Zhang, Q.L. Liu, Q. Wu, Y.F. Zheng, J. Zhou, Z.K. Tu, S.H. Chan. Modelling of solid oxide electrolyser cell using extreme learning machine. Electrochimica Acta, 2017, 251:137-144
    (22)    X. Chen, W.B. Li, G.C. Gong, Z.M. Wan, Z.K. Tu. Parametric analysis and optimization of PEMFC system for maximum power and efficiency using MOEA/D. Applied Thermal Engineering, 2017,121: 400-409
    (23)    P.Y. Wang, Z.H. Pu, Y.H. Li, L. Wu, Z.K. Tu, M. Jiang, Z.K. Kou, I. S. Amiinu, S.C. Mu*. Iron-doped nickel phosphide nanosheet arrays: An efficient bifunctional electrocatalyst for water splitting. ACS Applied Materials & Interfaces, 2017, 9 (31), 26001–26007.
    (24)    S.Z. Zhang, B. Chen, P. Shu, M.J. Luo, C.J. Xie, S.H. Quan, Z.K. Tu*, Y. Yi. Evaluation of performance enhancement by condensing the anode moisture in a proton exchange membrane fuel cell stack, Applied Thermal Engineering, 2017, 120: 115-120
    (25)    L. Wu, Z.H. Pu, Z.K. Tu*, I. S. Amiinu, S.J. Liu, P.Y. Wang, S.C Mu*. Integrated design and construction of WP/W nanorod array electrodes toward efficient hydrogen evolution reaction. Chemical Engineering Journal, 2017, 327, 705-712
    (26)    H.W. Chang, Z.M. Wan, X. Chen, S.M. Shu, Z.K. Tu*, S.H. Chan. Energy analysis of a hybrid PEMFC–solar energy residential micro-CCHP system combined with an organic Rankine cycle and vapor compression cycle. Energy Conversion and Management, 2017, 142:374-384  
    (27)    H.W. Chang, Z.M. Wan, X. Chen, H.N. Zhang, Z.K. Tu*, S.M. Su.  Temperature and humidity effect on aging of silicone rubbers as sealing materials for proton exchange membrane fuel cell applications. Applied Thermal Engineering, 2016, 104: 472-478
    (28)    Z. Pu, X. Ya, I.S. Amiinu, Z.K. Tu*, X Liu, W. Li, S. C. Mu, Ultrasmall tungsten phosphide nanoparticles embedded in nitrogen- doped carbon as a highly active and stable hydrogen-evolution electrocatalyst, Journal of Materials Chemistry A, 2016, 4, 15327-15332
    (29)    B. Chen, J. Wang, T. Yang, Y. Cai, C. Zhang, S.H. Chan, Y. Yu, Z.K. Tu*. Carbon corrosion and performance degradation mechanism in a proton exchange membrane fuel cell with dead-ended anode and cathode. Energy, 2016,106:54-62
    (30)    B. Chen, J. Wang, T. Yang, M. Pan, Z.K. Tu*, C. Zhang, S.H. Chan, Y. Yu. Mitigation studies of carbon corrosion by optimizing the opening size of the cathode outlet in a proton exchange membrane fuel cell with dead-ended anode. Energy Conversion and Management, 2016, 119: 60-66   23
    (31)    X. Chen, G.C. Gong, Z.M. Wan, C.Z. Zhang, Z.K. Tu. Performance study of a dual power source residential CCHP system based on PEMFC and PTSC. Energy Conversion and Management, 2016, 119: 163-176
    (32)    C.Z. Zhang, T. Yu, J. Yi, Z.T Liu, K. A. R. Raj, L.C Xia, Z.K. Tu, S. H. Chan. Investigation of heating and cooling in a stand-alone high temperature PEM fuel cell system. Energy Conversion and Management, 2016, 129:36-42
    (33)    B Chen, W Ke, M Luo, J Wang, Z.K. Tu*, M Pan, H Zhang. Operation characteristics and carbon corrosion of PEMFC with dead-ended anode for high hydrogen utilization. Energy, 2015, 91:799-806    14
    (34)    B. Chen, M.M. Wang, Z.K. Tu*, X. Gong, H.N. Zhang, M. Pan, Y.H. Cai, Z.M. Wan. Moisture Dehumidification and Its Application to a 3kW Proton Exchange Membrane Fuel Cell. International Journal of Hydrogen Energy, 2015, 40(2):1137-1144   5
    (35)    Z.C. Liu, J. Shen, H.C. Pei, Z.K. Tu*, J. Wang, Z.M. Wan*, W. Liu. Effect of Humidified Water Vapor on Heat Balance Management in a Proton Exchange Membrane Fuel Cell Stack, International Journal of Energy Research, 2015, 39(4):504-515
    (36)    I.S. Amiinu, W. Li, G.J. Wang, Z.K. Tu, H.L. Tang, M. Pan, H.N. Zhang*. Toward Anhydrous Proton Conductivity Based on Imidazole Functionalized Mesoporous Silica/Nafion Composite Membranes. Electrochimica Acta, 2015, 160: 185-194
    (37)    J. Feng, Q.L. Zhang, Z.K. Tu*, W.M. Tu, Z.M. Wan, M. Pan, H.N. Zhang*, Degradation of silicone rubbers with different hardness in various aqueous solutions, Polymer Degradation and Stability, 2014, 109:122-128
    (38)    W. Li, X.M. Liang, H.F. Niu, Z.K Tu*, J. Feng, M. Pan, H. N. Zhang*. Decorating titanate nanotubes with protonated 1, 2, 4-triazole moieties for anhydrous proton conduction. Journal of Colloid and Interface Science, 2014, 432:26-30
    (39)    Z.K. Tu, H.L. Tang*, X.T. Shen. Particle-Assisted Semidirect Breath Figure Method: A Facile Way to Endow the Honeycomb-Structured Petri Dish with Molecular Recognition Capability. ACS Applied Materials & Interfaces, 2014, 6:12931-12938
    (40)    J. Feng, Y.Q Huang, Z.K. Tu, H.L. Tang, M. Pan, H.N. Zhang*, Proton conduction of polyAMPS brushes on titanate nanotubes, Scientific Reports, 2014, 4:6225  
    (41)    H.C. Pei, J. Shen, Y.H. Cai, Z.K. Tu*, Z.M. Wan, Z.C. Liu, W. Liu. Operation Characteristics of Air-cooled Proton Exchange Membrane Fuel Cell Stacks under Ambient Pressure. Applied Thermal Engineering, 2014, 63:227-233
    (42)    Z.M. Wan, J. Shen, H.N. Zhang, Z.K Tu*, W. Liu. In Situ Temperature Measurement in a 5kW-class Proton Exchange Membrane Fuel Cell Stack with Pure Oxygen as the Oxidant, International Journal of Heat and Mass Transfer, 2014, 75: 231-234
    (43)    D.D. Wang, Z.C. Liu*, J Shen, B.B. Chen, J.G. Yang, Z.K. Tu, W. Liu. Experimental study of the loop heat pipe with a flat disk-shaped evaporator, Experimental Thermal and Fluid Science, 2014, 57: 157-164
    (44)    D.H. Ye, Z.K. Tu*, Y. Yu, H.N. Zhang, Z.G. Zhan, M. Pan. Hydrogen Permeation across Super-thin Membrane and the Burning Limitation in Low-temperature Proton Exchange Membrane Fuel Cell. International Journal of Energy Research, 2014,38: 1181-1191
    (45)    Y.S. Wang, B. Zhou, Z.C. Liu*, Z.K. Tu, W. Liu*. Numerical study and performance analyses of the mini-channel with discrete double-inclined ribs. International Journal of Heat and Mass Transfer, 2014, 78: 498-505
    (46)    Z.K. Tu, H. N. Zhang*, Z.P. Luo, J. Liu, Z.M. Wan, M. Pan, Evaluation of 5kW Proton Exchange Membrane Fuel Cell Stack Operated at 95oC under Ambient Pressure, Journal of Power Sources, 2013, 222:277-281
    (47)    H.C. Pei, Z.C. Liu, H.N. Zhang, Y. Yu, Z.K. Tu*, Z.M. Wan, W. Liu*, In Situ Measurement of Temperature Distribution in Proton Exchange Membrane Fuel Cell Ⅰ A Hydrogen-Air Stack, Journal of Power Sources, 2013, 227: 72-79
    (48)    Z.M. Wan, J. Liu, Z.P. Luo, Z.K. Tu*, Z.C. Liu, W. Liu, Evaluation of self-water-removal in a dead-ended proton exchange membrane fuel cell, Applied Energy, 2013,104: 751-757
    (49)    C.X. Huang, Z.K. Tu*, X.T. Shen, Molecularly imprinted photocatalyst with a structural analogue of template and its application, Journal of Hazardous Materials, 2013, 248-249: 379-386
    (50)    G.Q. Ding, H.Q. Tang, Z.P. Luo, Z.K. Tu*, H.C. Pei, Z.C. Liu, W. Liu. Water Distribution and Removal along the Flow Channel in Proton Exchange Membrane Fuel Cells. Journal of Wuhan University of Technology-Materials Science Edition, 2013, 28: 243-248
    (51)    F.F. Zhang, Z.K. Tu, J. Yu, H.B. Li, C. Huang, H.N. Zhang*. Impregnation of imidazole functionalized polyhedral oligomeric silsesquioxane in polymer electrolyte membrane for elevated temperature fuel cells, RSC Advances, 2013, 3: 5438-5446
    (52)    I. S. Amiinu, X.M. Liang, Z.K. Tu, H.N. Zhang*, J.W. Feng, Z.M. Wan, M.Pan. Anhydrous Proton Conducting Materials Based on Sulfonated Dimethylphenethylchlorosilane Grafted Mesoporous Silica/Ionic Liquid Composite, ACS Applied Materials & Interfaces, 2013, 5:11535-11543
    (53)    D. H. Ye, Z.G. Zhan*, Y. J. Lee, Z. K. Tu, Y. Zhang, M. Pan*. Effects of Frame Materials and Structures on Stress Concentration of Membrane Electrode Assembly of PEMFCs, Fuel Cells, 2013,13:1205-1212
    (54)    Z.K. Tu, M. Pan, W. Liu*, Z.C. Liu, Z.M. Wan, Modeling of stability of the condensing interface in a capillary pumped loop,  International Journal of Heat and Mass Transfer, 2012, 55:1709-1715  
    (55)    Y. Yu, Z.K. Tu*, Z.G. Zhan, M. Pan, Gravity effect on the performance of PEM Fuel Cell Stack with different gas inlet/outlet positions,  International Journal of Energy Research, 2012, 36: 845-855
    (56)    Z.M. Wan, J.H. Wan, J. Liu, Z.K. Tu*, M. Pan, Z.C. Liu, W. Liu, Water recovery and air humidification by condensing the moisture in the outlet gas of a proton exchange membrane fuel cell stack, Applied Thermal Engineering, 2012,42:173-178
    (57)    Z.M. Wan, G.Q. Guo, Z.K. Tu*, W. Liu, Experimental analysis of flow and heat transfer in a miniature porous heat sink for high heat flux application, International Journal of Heat and Mass Transfer, 2012, 55: 4437-4441
    (58)    Q. Li, H.N. Zhang*, Z.K. Tu, J. Yu, C.X. Xiong, M. Pan, Impregnation of amine-tailoredtitanate nanotubesinpolymer electrolyte membranes, Journal of Membrane Science, 2012, 423-424: 284-292
    (59)    Y. Yu, G. J. Wang*, Z.K. Tu, Z.G. Zhan, M. Pan, Effect of gas shutoff sequences on the degradation of proton exchange membrane fuel cells with dummy load during startup and shutdown cycles, Electrochimica Acta, 2012, 71:181-193
    (60)    Y. Yu*, Z.K. Tu, H.N. Zhang, M. Pan. Comparison of degradation behaviors for open-ended and closed proton exchange membrane fuel cells during startup and shutdown cycles. Journal of Power Sources, 2011,196:5077-5083
    (61)    Z.M. Wan*, J. Liu, J.H. Wan, Z.K. Tu, W. Liu,  An overall numerical investigation on heat and mass transfer for miniature flat plate capillary pumped loop evaporator, Thermochimica Acta, 2011, 51: 82-88
    (62)    Z.K. Tu, W. Liu*, Z.C. Liu, X.M. Huang, Interface stability in a capillary loop undergoing phase changes in non-gravitational conditions, Chinese Science Bulletin, 2010, 55: 4069-4073
    (63)    W. Liu*, Z.C. Liu, Z.K. Tu, Phase change driving mechanism and modeling for heat pipe with porous wick, Chinese Science Bulletin, 2009, 54:4000-4004
    (64)    Z.M. Wan*, W. Liu, Z.K. Tu, A. Nakayama, Conjugate numerical analysis of flow and heat transfer with phase change in a miniature flat plate CPL evaporator. International Journal of Heat and Mass Transfer, 2009, 52:422-430
    (65)    Z.K. Tu, Z.C. Liu, D.X. Gai, Z.M. Wan, W. Liu*, Heat and mass transfer in a flat disc shaped evaporator of a miniature LHP. Proc. IMechE, Journal of Aerospace Engineering, 2009, 223:609-618
    (66)    周浩然,张永林,宋少云,涂正凯,裴后昌.质子交换膜燃料电池排水技术现状研究.电源技术, 2020, 44(05):774-777.
    (67)    赵俊杰,涂正凯.高温车用燃料电池的发展及现状综述.化工进展, 2020, 39(05):1722-1733.
    (68)    程伟,余意,涂正凯.氢氧燃料电池电极中液态水的脱离时间研究.武汉理工大学学报(交通科学与工程版), 2019, 43(04):652-656.
    (69)    肖彪,张威,范丽欣,常华伟,涂正凯. 基于尾气冷凝的质子交换膜燃料电池除湿机制研究.电池工业, 2019, 23(02):63-67.
    (70)    张磊,涂正凯,乔瑜.固体氧化物电解池共电解H2O-CO2的发展与应用研究.可再生能源, 2018, 36(10):1554-1560.
    (71)    隋岩峰,陈奔,罗马吉,余意,涂正凯.闭式燃料电池中的液滴脱离时间研究.电源技术, 2018, 42(06):835-836+908.
    (72)    熊承盛,罗马吉,陈奔,涂正凯.流道结构对燃料电池阴极氧气分布的影响.电源技术, 2018, 42(02):230-232+282.
    (73)    何子伟,罗马吉,涂正凯.等温压缩空气储能技术综述.热能动力工程, 2018, 33(02):1-6.
    (74)    何子伟,罗马吉,涂正凯.等温压缩空气储能系统喷水量研究.西安交通大学学报, 2018, 52(01):33-39.
    (75)    柯婉頔,陈奔,席清海,罗马吉,涂正凯,潘牧,刘伟.高电流密度下PEMFC水淹过程的碳腐蚀行为及耐久性研究.工程热物理学报, 2017, 38(02):364-368.
    (76)    陈奔,王俊,涂正凯,潘牧,沈俊,刘志春,刘伟.基于高氢气利用率的质子交换膜燃料电池运行特性研究.工程热物理学报, 2016, 37(02):372-377.
    (77)    王俊,陈奔,席清海,涂正凯.脉冲排放对PEMFC性能影响的研究进展.电池, 2015, 45(06):332-335.
    (78)    裴后昌,涂正凯,刘志春,沈俊,邱子朝,刘帆,刘伟.低流速燃料电池重力辅助排水.化工学报, 2014, 65(S1):415-420.
    (79)    罗琴,王俊,涂正凯,潘牧,万忠民,刘志春,刘伟.质子交换膜冻结温度的理论与实验研究.工程热物理学报, 2014, 35(04):743-746.
    (80)    沈俊,周兵,邱子朝,涂正凯,刘志春,刘伟.质子交换膜燃料电池强化传质.化工学报, 2014, 65(S1):421-425.
    (81)    万忠民,沈俊,裴后昌,刘靖,万军华,涂正凯,刘志春,刘伟.质子交换膜燃料电池堆散热特性研究.工程热物理学报, 2013, 34(10):1952-1955.
    (82)    徐云飞,陈奔,余意,涂正凯,潘牧.渐扩型流场PEM燃料电池性能影响研究.电池工业, 2013, 18(Z2):159-162.
    (83)    叶东浩,詹志刚,汪广进,涂正凯,潘牧.低温燃料电池用质子交换膜的气体渗透性研究.湖南大学学报(自然科学版), 2013, 40(03):71-75.
    (84)    汪震,潘姣,裴后昌,刘志春,涂正凯.质子交换膜燃料电池低温启动研究现状.电池工业, 2012, 17(06):375-381.
    (85)    涂正凯,潘牧,丁刚强,刘志春,刘伟.PEMFC尾气冷凝的自增湿运行.工程热物理学报, 2012, 33(12):2130-2132.
    (86)    刘志春,涂正凯,周兵,刘伟.质子交换膜燃料电池阴极气场设计优化.工程热物理学报, 2012, 33(08):1375-1379.
    (87)    刘靖,万忠民,万军华,丁刚强,涂正凯,刘伟.中压氢-氧质子交换膜燃料电池的运行特性.化工学报, 2012,63(S1):204-207.
    (88)    周兵,涂正凯,刘志春,刘伟.毛细相变流体回路中蒸发器的预热启动特性研究.武汉理工大学学报(交通科学与工程版), 2012, 36(02):243-246.
    (89)    李薇,李琼,涂正凯,张海宁,潘牧.2-取代咪唑衍生物掺杂高温非水用Nafion质子交换膜的制备和性能.中国科学:化学, 2011, 41(12):1840-1847.
    (90)    裴后昌,詹志刚,涂正凯,潘牧.质子交换膜燃料电池集流板的欧姆热效应研究. 电源技术, 2011, 35(11):1361-1363.
    (91)    丁刚强,唐和清,周兵,裴后昌,刘志春,涂正凯.闭口氢-氧PEM燃料电池非稳态运行研究.电池工业, 2011, 16(05):270-273.
    (92)    万忠民,刘靖,陈敏,管琼,涂正凯.高热流密度散热的多孔微热沉流动与传热实验研究.中国电机工程学报, 2011, 31(29):74-78.
    (93)    涂正凯,潘牧,刘志春,刘伟.PEMFC中液态水沿程分布的机理研究.伟德国际1946源自英国学报(自然科学版), 2011, 39(07):14-17.
    (94)    涂正凯,余意,裴后昌,潘牧,刘志春,刘伟.质子交换膜燃料电池堆尾气冷凝回收的自加湿运行.武汉理工大学学报, 2011, 33(06):1-4.
    (95)    涂正凯,裴后昌,余意,罗志平,潘牧.PEMFC流道中重力辅助排水的机理研究.电池工业, 2011, 16(02):93-96.
    (96)    涂正凯,刘伟,刘志春,范爱武.毛细相变流体回路冷凝界面的稳定性.中国空间科学技术, 2010, 30(04):64-70.
    (97)    涂正凯,刘伟,刘志春,黄晓明.无重力条件下毛细相变回路中界面的稳定性研究.科学通报, 2010, 55(22):2252-2256.
    (98)    余意,涂正凯,詹志刚,潘牧.重力倾角对PEMFC电堆性能的影响.伟德国际1946源自英国学报(自然科学版), 2010, 38(07):32-35.
    (99)    涂正凯,刘伟,黄素逸,刘志春.无重力条件下毛细相变流体回路的稳定性研究.自然科学进展, 2009, 19(12):1380-1385.
    (100)    涂正凯,刘伟,黄素逸,刘志春.无重力条件下毛细相变流体回路的稳定性研究.自然科学进展, 2009, 19(12):1380-1385.
    (101)    涂正凯,刘超,刘志春,刘伟.CPL微泵引射辅助回路的数值研究.伟德国际1946源自英国学报(自然科学版), 2009, 37(11):119-121+125.
    (102)    刘伟,刘志春,杨昆,涂正凯.毛细芯热管的相变驱动机制与模型.科学通报, 2009, 54(13):1932-1936.
    (103)    刘伟,刘志春,明廷臻,涂正凯.相变流体回路中毛细芯内液体气化界面的稳定性分析.自然科学进展, 2009, 19(07):773-777.
    (104)    涂正凯. 小型平板毛细相变流体回路的运行机制研究[D].伟德国际1946源自英国,2009.
    (105)    涂正凯,万忠民,盖东兴,刘伟.小型平板CPL蒸发器优化设计研究.工程热物理学报, 2009, 30(04):668-670.
    (106)    柯华,明廷臻,涂正凯.旋流叶片传热管内湍流强化传热数值模拟.冶金能源, 2009, 28(02):38-41.
    (107)    涂正凯,刘伟,黄晓明,刘志春.毛细蒸发相变界面的数学模型和机理.伟德国际1946源自英国学报(自然科学版), 2008, (08):96-98+102.
    (108)    涂正凯,付为国,余意,詹志刚,潘牧. 能够低温保存和低温启动的质子交换膜燃料电池系统,2012.3,发明专利,ZL201110349637.8
    (109)    涂正凯,余意,叶东浩,罗志平,潘牧. 质子交换膜燃料电池自反馈加湿器,2011.11,发明专利,ZL 201110386726.X
    (110)    涂正凯,陈奔,潘牧. 一种圆环形燃料电池双极板,2012.10,发明专利,ZL201210330784
    (111)    涂正凯,陈奔,潘牧. 一种短时封闭式燃料电池,2012.10,发明专利,ZL 201210330801
    (112)    涂正凯,陈奔,叶东浩,潘牧. 一种质子交换膜燃料电池尾气处理装置,2012.10,发明专利,ZL 201210332838
    (113)    涂正凯,常华伟,龚骋原范丽欣. 一种通过单套模具成型的质子交换膜燃料电池金属双极板,CN201811284453.6

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