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Progress in Chemistry 2006, Vol. 18 Issue (12): 1725-1734 Previous Articles   

• Review •

Transport Phenomena and Numerical Simulation Related to

Liang Qi Xiaofeng Xie Jingming Xu Qifeng Zhou   

  • Received: Revised: Online: Published:
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The R&D of Direct Methanol Fuel Cell (DMFC) is becoming a hot topic in the scope of fuel cell. Simulating the interior transport phenomena by means of mathematical model is theoretically meaningful and instructive to the structure design and to optimize the operation conditions. Based on the application of two-phased flow model and computer fluid dynamics technology, the transport processing mostly occurred in the fuel cell, especially physical model and mathematical model related to water, is reviewed in this paper. The transport micro-mechanism is taken into account comprehensively in these models. These models describe the complex transport phenomena and provide numerical simulation method and validation method. These methods not only deepen the understanding of the transport phenomena occurred in the fuel cell, but also increase the power density ratio to its volume and weight, shorten the R&D cycle and lower the R&D cost significantly.
Key words: direct methanol fuel cell(DMFC), numerical models, transport phenomena, water management

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[ 1 ] Baldauf M, Preidel W. J . Power Sources , 1999 , 84(2) : 161 —166
[ 2 ] Lu G Q , Wang C Y. J . Power Sources , 2005 , 144(1) : 141 —145
[ 3 ] Ren X M, Zelenay P , Thomas S , et al. J . Power Sources , 2000 , 86(1/2) : 111 —116
[ 4 ] Kreuer K D. J . Membr. Sci. , 2001 , 185(1) : 29 —39
[ 5 ] Fontes E , Oloman C. Lindbergh G. Handbook of Fuel Cell Modelling. Amsterdam: Elsevier Science , 2003. 1 —384
[ 6 ] Yao K Z, Koran K, McAuley K B , et al. Fuel Cells , 2004 , 4(1/2) :3 —29
[ 7 ] Wang C Y. Chem. Rev. , 2004 , 104(10) : 4727 —4763
[ 8 ] 才英华(Cai Y H) , 胡军(Hu J) , 衣宝廉(Yi B L) 等. 化学进展(Progress in Chemistry) , 2005 , 17(3) : 547 —548
[ 9 ] Dannenberg K, Ekdunge P , Lindbergh G. J . Appl. Electrochem. ,2000 , 30(12) : 1377 —1387
[10] Dutta S , Shimpalee S , Vanzee J W. J . Appl. Electrochem. , 2000 ,30(2) : 135 —146
[11] Yang H, Zhao T S , Ye Q. J . Power Sources , 2005 , 142 (1/2) :117 —124
[12] Yang H, Zhao T S , Ye Q. J . Power Sources , 2005 , 139 (1/2) :79 —90
[13] Bewer T, Beckmann T, Dohle H, et al. Proceedings of the International Symposium. Washington D C: Electrochemical Society ,2001. 320 —330
[14] Wong C W, Zhao T S , Ye Q , et al. J . Electrochem. Soc. , 2005 ,152(8) : 1600 —1605
[15] Nordlund J , Picard C, Birgersson E , et al. J . Appl. Electrochem. ,2004 , 34(8) : 763 —770
[16] Dohle H, Divisek J , Jung R. J . Power Sources , 2000 , 86 (1/2) :469 —477
[17] Sundmacher K, Scott K. Chem. Eng. Sci. , 1999 , 54 (13/14) :2927 —2936
[18] Wang Z H, Wang C Y. J . Electrochem. Soc. , 2003 , 150 (4) :A508 —A519
[19] Krewer U , Song Y, Sundmacher K, et al. Chem. Eng. Sci. , 2004 ,59(1) : 119 —130
[20] Dohle H, Jung R , Kimiaie N , et al. J . Power Sources , 2003 , 124(2) : 371 —384
[21] Argyropoulos P , Scott K, Taama W M. Chem. Eng. J . , 1999 , 73(3) : 217 —227
[22] Argyropoulos P , Scott K, Taama W M. Chem. Eng. J . , 1999 , 73(3) : 229 —245
[23] Yang H, Zhao T S , Ye Q. J . Power Sources , 2005 , 142 (1/2) :117 —124
[24] Arico A S , Creti P , Baglio V , et al. J . Power Sources , 2000 , 91(2) : 202 —209
[25] Yang H, Zhao T S. Electrochim. Acta , 2005 , 50 (16/17) : 3243 —3252
[26] Tuber K, Oedegaard A , HermannM, et al. J . Power Sources , 2004 ,131(1/2) : 175 —181
[27] Meng H, Wang C Y. J . Electrochem. Soc. , 2005 , 152(9) : 1733 —1741
[28] Kulikovsky A A. Electrochem. Commun. , 2005 , 7(2) : 237 —243
[29] Yang H, Zhao T S , Ye Q. Electrochem. Commun. , 2004 , 6(11) :1098 —1103
[30] Kulikovsky A A. J . Appl. Electrochem. , 2000 , 30(9) : 1005 —1014
[31] Kulikovsky A A. Electrochem. Commun. , 2001 , 3(10) : 572 —579
[32] Sundmacher K, Schultz T, Zhou S , et al. Chem. Eng. Sci. , 2001 ,56(2) : 333 —341
[33] Schultz T, Sundmacher K. J . Power Sources , 2005 , 145 (2) : 435 —462
[34] Kulikovsky A A , Divisek J , Kornyshev A A. J . Electrochem. Soc. ,1999 , 146(11) : 3981 —3991
[35] Arnost D , Schneider P. Chem. Eng. J . Biochem. Eng. J . , 1995 ,57(2) : 91 —99
[36] Hejtmanek V , Capek P , Solcova O , et al. Chem. Eng. J . , 1998 , 70(3) : 189 —195
[37] Hejtmanek V , Capek P , Solcova O , et al. Chem. Eng. J . , 1999 , 74(3) : 171 —179
[38] Neergat M, Shukla A K. J . Power Sources , 2002 , 104(2) : 289 —294
[39] Krishna R , Wesselingh J A. Chem. Eng. Sci. , 1997 , 52(6) : 861 —911
[40] Siebke A , Schnurnberger W, Meier F , et al. Fuel Cells , 2003 , 3(1/2) : 37 —47
[41] Fan J R , Hu G L , Yao J , et al. Energy Fuels , 2002 , 16(6) : 1591 —1598
[42] Baxter S F , Battaglia V S , White R E. J . Electrochem. Soc. , 1999 ,146(2) : 437 —447
[43] 胡桂林(Hu G L) , 樊建人(Fan J R) , 岑可法(Cen K F) . 动力工程(Power Engineering) , 2003 , 23(3) : 2465 —2469
[44] Argyropoulos P , Scott K, Taama W M. J . Appl. Electrochem. ,1999 , 29(6) : 661 —669
[45] Oedegaard A , Hebling C, Schmitz A , et al. J . Power Sources , 2004 ,127(1/2) : 187 —196
[46] Scott K, Argyropoulos P , Sundmacher K J . Electroanal. Chem. ,1999 , 477(2) : 97 —110
[47] Ren X M, Springer T E , Zawodzinski T A , et al. J . Electrochem.Soc. , 2000 , 147(2) : 466 —474
[48] Divisek J , Fuhrmann J , Gartner K, et al. J . Electrochem. Soc. ,2003 , 150(6) : 811 —825
[49] Andrian S V , Meusinger J . J . Power Sources , 2000 , 91(2) : 193 —201
[50] Birgersson E , Nordlund J , Ekstrom H, et al. J . Electrochem. Soc. ,2003 , 150(10) : 1368 —1376
[51] Kulikovsky A A. Electrochem. Commun. , 2002 , 4(12) : 939 —946
[52] Kulikovsky A A. Electrochem. Commun. , 2003 , 5(12) : 1030 —1036
[53] Nordlund J , Lindbergh G. J . Electrochem. Soc. , 2002 , 149 (9) :1107 —1113
[54] Kulikovsky A A. Electrochem. Commun. , 2003 , 5(7) : 530 —538
[55] Meyers J P , Newman J . J . Electrochem. Soc. , 2002 , 149 (6) :718 —728
[56] Scott K, Argyropoulos P. J . Power Sources , 2004 , 137 (2) : 228 —238
[57] Bernardi D M, Verbrugge M W. AIChE J . , 1991 , 37 (8) : 1151 —1163
[58] Natarajan D , van Nguyen T. J . Power Sources , 2003 , 115(1) : 66 —80
[59] Guo H, Ma C F. Electrochem. Commun. , 2004 , 6(3) : 306 —312
[60] YouL X, Liu H T. Int. J . Heat Mass Transf . , 2002 , 45 (11) :2277 —2287
[61] Wang C Y, Cheng P. Int. J . Heat Mass Transf . , 1996 , 39 (17) :3607 —3618
[62] Cheng P , Wang C Y. Int. J . Heat Mass Transf . , 1996 , 39 (17) :3619 —3632
[63] Bernardi D M, Verbrugge M W. J . Electrochem. Soc. , 1992 , 139(9) : 2477 —2491
[64] Siegel N P , Ellis M W, Nelson DJ , et al. J . Power Sources , 2003 ,115(1) : 81 —89
[65] Lin G Y, He WS , van Nguyen T. J . Electrochem. Soc. , 2004 , 151(12) : 1999 —2006
[66] 杜春雨(Du C Y) , 史鹏飞(Shi P F) , 程新群(Cheng XQ) , 尹鸽平(Yin G P) . 化学工业与工程(Journal of Chemical Industry and Engineering) , 2005 , 56(6) : 1102 —1105
[67] Ren X M, Gottesfeld S. J . Electrochem. Soc. , 2001 , 148(1) : 87 —93
[68] Motupally S , Becker A J , Weidner J W. J . Electrochem. Soc. ,2000 , 147(9) : 3171 —3177
[69] Berezina N P , Timofeev S V , Kononenko N A. J . Membr. Sci. ,2002 , 209(2) : 509 —518
[70] Zawodzinski T A , Derouin C, Radzinski S , et al. J . Electrochem.Soc. , 1993 , 140(4) : 1041 —1047
[71] Zawodzinski T A , Davey J , Valerio J , et al. Electrochim. Acta ,1995 , 40(3) : 297 —302
[72] Yeo R S , McBreen J . J . Electrochem. Soc. , 1979 , 126 (10) :1682 —1687
[73] Nguyen T V , White R E. J . Electrochem. Soc. , 1993 , 140 (8) :2178 —2186
[74] Fuller T F , Newman J . J . Electrochem. Soc. , 1992 , 139 (5) :1332 —1337
[75] Fuller T F , Newman J . J . Electrochem. Soc. , 1993 , 140 (5) :1218 —1285
[76] Cao J , Djilali N. J . Energy Resour. Technol . Trans . ASME , 2005 ,127(1) : 26 —36
[77] Verbrugge M W, Hill R F. J . Electrochem. Soc. , 1990 , 137 (3) :893 —899
[78] Verbrugge M W, Hill R F. J . Electrochem. Soc. , 1990 , 137 (3) :886 —893
[79] Singh D , Lu D M, Djilali N. Int. J . Eng. Sci. , 1999 , 37 (4) :431 —452
[80] NamJ H, Kaviany M. Int. J . Heat Mass Transf . , 2003 , 46 (24) :4595 —4611
[81] Bernardi D M. J . Electrochem. Soc. , 1990 , 137(11) : 3344 —3350
[82] Okada T, Xie G, Meeg M. Electrochim. Acta , 1998 , 43 (14/15) :2141 —2155
[83] Chen F , Su Y G, Soong C Y, et al. J . Electroanal. Chem. , 2004 ,566(1) : 85 —93
[84] Ioselevich A S , Kornyshev A A , Steinke J H G. J . Phys. Chem. B ,2004 , 108(32) : 11953 —11963
[85] Meyers J P , Newman J . J . Electrochem. Soc. , 2002 , 149 (6) :710 —717
[86] Spohr E. Mol. Simul. , 2004 , 30(2P3) : 107 —115
[87] 浦鸿汀(Pu H T) , 崔春涛( Cui C T) . 高分子材料科学与工程(Polymeric Materials Science and Engineering) , 2005 , 21(2) : 181 —184
[88] Paddison S J , Paul R , Zawodzinski T A Jr. J . Electrochem. Soc. ,2000 , 147(2) : 617 —626
[89] Paul R , Paddison SJ . J . Phys. Chem. B , 2004 , 108(35) : 13231 —13241
[90] Wang C Y, Cheng P. J . Heat Transf . Trans . ASME , 1998 , 120(1) :286 —290
[91] Birgersson E , Nordlund J , Vynnycky M, et al. J . Electrochem.Soc. , 2004 , 151(12) : 2157 —2172
[92] Pasaogullari U , Wang C Y. J . Electrochem. Soc. , 2005 , 152 (2) :380 —390
[93] Benziger J , Nehlsen J , Blackwell D , et al. J . Membr. Sci. , 2005 ,261(1/2) : 98 —106
[94] Springer T E , Wilson M S , Gottesfeld S. J . Electrochem. Soc. ,1993 , 140(12) : 3513 —3526
[95] Dutta S , Shimpalee S , van Zee J W. J . Appl. Electrochem. , 2000 ,30(2) : 135 —146
[96] He W, Yi J S , van Nguyen T. AIChE J . , 2000 , 46 (10) : 2053 —2064
[97] Mazumder S , Cole J V. J . Electrochem. Soc. , 2003 , 150 (11) :1510 —1517
[98] Mazumder S , Cole J V. J . Electrochem. Soc. , 2003 , 150 (11) :1503 —1509
[99] Springer T E , Zawodzinski TA , Gottesfeld S. J . Electrochem. Soc. ,1991 , 138(8) : 2334 —2342
[100] Gurau V , Barbir F , Liu H. J . Electrochem. Soc. , 2000 , 147(7) : 2468 —2477
[101] Um S , Wang C Y, Chen K S. J . Electrochem. Soc. , 2000 , 147(12) : 4485 —4493
[102] Ju H, Meng H, Wang C Y. Int. J . Heat Mass Transf . , 2005 , 48(7) : 1303 —1315
[103] Meng H, Wang C Y. Chem. Eng. Sci. , 2004 , 59(16) : 3331 —3343
[104] Wang Z H, Wang C Y, Chen KS. J . Power Sources , 2001 , 94(1) :40 —50
[105] Yang X G, Zhang F Y, Lubawy A L , et al. Electrochem. Solid State Lett. , 2004 , 7(11) : 408 —411
[106] Berning T, Lu D M, Djilali N. J . Power Sources , 2002 , 106(1/2) :284 —294
[107] Janssen G J M, Overvelde M L J . J . Power Sources , 2001 , 101(1) :117 —125
[108] 孙红(Sun H) , 郭烈锦(Guo L J ) , 刘洪潭(Liu H T) , 张广升(Zhang G S) . 西安交通大学学报(Journal of Xipan Jiaotong University) , 2005 , 39(11) : 1177 —1181
[109] Mench M M, Wang C Y. J . Electrochem. Soc. , 2003 , 150 (1) :79 —85
[110] Dong Q , Kull J , Mench M M. J . Power Sources , 2005 , 139(1/2) :106 —114
[111] Geiger A B , Tsukada A , Lehmann E , et al. Fuel Cell , 2002 , 2(2) :92 —98
[112] Hauer K H, Potthast R , Wuster T, et al. J . Power Sources , 2005 ,143(1/2) : 67 —74
[113] 苗青(Miao Q) , 曹广益(Cao G Y) , 朱新坚(Zhu X J ) , 李曦(Li X) . 计算机仿真(Computer Simulation) , 2005 , 22(1) : 220 —223
[114] 黄强(Huang Q) , 朱新坚(Zhu X J) , 曹广益(Cao G Y) . 系统仿真学报(Acta Simulata Systematica Sinica) , 2005 , 17 (9) : 2118 —2122
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