Hydrogen production and carbon dioxide enrichment using a catalytic membrane reactor with Ni metal catalyst and Pd-based membrane

International Journal of Hydrogen Energy

Volumn 37, Issue 8, 2012, Pages 6626-6634

  Hwang, Kyung Ran ^a   Lee, Chun Boo ^a   Ryi, Shin Kun ^a   Park, Jong Soo ^a  

^a Korea Institute of Energy Research (KIER)   (South Korea)

Author keywords

Carbon capture and storage; Catalytic membrane reactor; Hydrogen; Nickel catalyst; Pd based membrane; Water gas shift reaction

Indexed keywords

CARBON CAPTURE AND STORAGE; CATALYTIC MEMBRANE REACTOR; NICKEL CATALYST; PD-BASED MEMBRANE; WATER-GAS SHIFT REACTION (WGS);

ATMOSPHERIC COMPOSITION; BIOREACTORS; CARBON CAPTURE; CARBON DIOXIDE; CATALYSTS; COAL GASIFICATION; FISCHER-TROPSCH SYNTHESIS; GAS PERMEABLE MEMBRANES; HYDROGEN; HYDROGEN PRODUCTION; HYDROGEN STORAGE; SEPARATION; SYNTHESIS GAS;

WATER GAS SHIFT;

EID: 84859213551     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2012.01.048     Document Type: Article

References (35)

1. 2 sorbent and WGS catalyst Energy Procedia 4 2011 1133 1138
2. 2 capture in a coal gasification process Energy Procedia 4 2011 1139 1146
3. 2 capture Int J Greenhouse Gas Control 3 2009 712 719
4. J.J. Marano, and J.P. Ciferino Integration of gas separation membranes with IGCC Energy Procedia 1 2009 361 368
5. A. Brunetti, A. Caravella, G. Barbieri, and E. Drioli Simulation study of water gas shift reaction in a membrane reactor J Membr Sci 306 2007 329 340
6. D. Mendes, V. Chibante, J.M. Zheng, S. Tosti, F. Borgognoni, and A. Mendes Enhancing the production of hydrogen via water-gas shift reaction using Pd-based membrane reactors Int J Hydrogen Energy 35 2010 12596 12608
7. A. Brunetti, G. Barbieri, E. Drioli, K.H. Lee, B. Sea, and D.W. Lee WGS reaction in a membrane reactor using a porous stainless steel supported silica membrane Chem Eng Processing 46 2007 119 126
8. K.-R. Hwang, S.-K. Ihm, and J.-S. Park A catalytic membrane reactor for water-gas shift reaction Korean J Chem Eng 27 2010 816 821
9. V. Piemonte, M.D. Falco, B. Favetta, and A. Basile Counter-current membrane reactor for WGS process: membrane design Int J Hydrogen Energy 35 2010 12609 12617
10. K.-R. Hwang, S.-H. Cho, S.-K. Ihm, C.-B. Lee, and J.-S. Park Catalytic active filter for water-gas shift reaction J Chem Eng Jpn 42 2009 1 5
11. 2 capture using Pd-based composite membranes Int J Hydrogen Energy 36 2011 13769 13775
12. K.-R. Hwang, C.-B. Lee, and J.-S. Park Advanced nickel metal catalyst for water-gas shift reaction J Power Sources 196 2011 1349 1352
13. S. Takenak, T. Shimizu, and K. Otsuka Complete removal of carbon monoxide in hydrogen-rich gas stream through methanation over supported metal catalysts Int J Hydrogen Energy 29 2004 1065 1073
14. K.-R. Hwang, S.-K. Ryi, C.-B. Lee, S.-W. Lee, and J.-S. Park Simplified, plate-type Pd membrane module for hydrogen purification Int J Hydrogen Energy 36 2011 10136 10140
15. C. Rhodes, G.J. Hutchings, and A.M. Ward Water-gas shift reaction: finding the mechanism boundary Catal Today 23 1995 43 58
16. J.R. Ladebeck, and J.P. Wagner Catalyst development for water-gas shift, handbook of fuel cell-fundamental, technology and application John Wiley & Sons, Ltd, Chichester 2003 190 201
17. F. Roa, P.M. Thoen, S.K. Gade, J.D. Way, S.D. Voss, and G. Alptekin Palladium-copper, palladium-gold alloy composite membranes for hydrogen separations, inorganic membranes for energy and environmental applications 2007 Springer Science and Business Media New York pp. 221-41
18. 2S on the performance of Pd and Pd/Au composite membrane J Membr Sci 362 2010 535 544
19. 4 in hydrogen purification with palladium-silver/ceramic composite membranes Ind Eng Chem Res 49 2010 4377 4382
20. S. Uemiya, T. Matsuda, and E. Kikuchi Hydrogen permeable palladium-silver alloy membrane supported on porous ceramics J Membr Sci 56 1991 315 325
21. K. Zhang, X. Wei, Z. Rui, Y. Li, and Y.S. Lin Effect of metal-supported interface on hydrogen permeation through palladium membranes AIChE J 55 2009 630 639
22. 2S. University of Pittsburgh. Ph.d. 2007.
23. 3 composite membranes for hydrogen separation Thin Solid Films 350 1999 106 112
24. W.H. Chen, P.C. Hsu, and B.J. Lin Hydrogen permeation dynamics across a palladium membrane in a varying pressure environment Int J Hydorgen Energy 35 2010 5410 5418
25. 2 modified porous stainless steel J Membr Sci 265 2005 142 152
26. F. Roa, J.D. Way, R.L. McCormick, and S.N. Paglieri Preparation and characterization of Pd-Cu composite membranes for hydrogen separation Chem Eng J 93 2003 11 22
27. 2/MPSS composite membrane for hydrogen separation and steam reforming of methane Sep Purif Technol 46 2005 1 10
28. R. Dittmeyer, V. Höllein, and K. Daub Membrane reactors for hydrogenation and dehydrogenation processes based on supported palladium J Mol Catal A Chem 173 2001 135 184
29. M.L. Bosko, J.B. Miller, E.A. Lombardo, A.J. Gellman, and L.M. Cornaglia Surface characterization of Pd-Ag composite membranes after annealing at various temperatures J Membr Sci 369 2011 267 276
30. M.L. Bosko, D. Yepes, S. Irusta, P. Eloy, P. Ruiz, and E.A. Lombardo Characterization of Pd-Ag membranes after exposure to hydrogen flux at high temperatures J Membr Sci 306 2007 56 65
31. Y.H. Chi, P.S. Yen, M.S. Jeng, S.T. Ko, and T.C. Lee Preparation of thin Pd membrane on porous stainless steel tubes modified by a two-step method Int J Hydorgen Energy 35 2010 6303 6310
32. 2/CO gaseous mixture through Pt-included composite membranes J Membr Sci 243 2004 243 251
33. 2 purification unit surface Int J Hydrogen Energy 33 2008 4183 4192
34. A. Li, W. Liang, and R. Hughes The effect of carbon monoxide and steam on the hydrogen permeability of a Pd/stainless steel membrane J Membr Sci 165 2000 135 141
35. 2 on hydrogen permeation through a ∼ 3 μm Pd/Ag 23 wt.% membrane employed in a microchannel membrane configuration Sep Purif Technol 68 2009 178 184