Zirconia-supported tungsten oxides for cyclic production of syngas and hydrogen by methane reforming and water splitting

International Journal of Hydrogen Energy

Volumn 38, Issue 20, 2013, Pages 8293-8305

  Kwak, Jung Hun ^a   Han, Gui Young ^a   Yoon, Ki June ^a  

^a Sungkyunkwan University   (South Korea)

Author keywords

Hydrogen; Methane reforming; Syngas; Tungsten oxide; Water splitting

Indexed keywords

CARBON DEPOSITION; CYCLIC PRODUCTION; DEGREE OF REDUCTION; METHANE DECOMPOSITION; METHANE REFORMING; SYN-GAS; TUNGSTEN OXIDE; WATER SPLITTING;

CARBON; CARBON DIOXIDE; DEPOSITION; HYDROGEN; HYDROGEN PRODUCTION; METHANE; SYNTHESIS GAS; ZIRCONIA;

ULTRATHIN FILMS;

EID: 84879240347     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2013.04.082     Document Type: Article

References (27)

1. A. Kogan Direct solar thermal splitting of water and on-site separation of the products - II. Experimental feasibility study Int J Hydrogen Energy 23 1998 89 98
2. 2 by a two-step redox cycle of ferrite Energy 11 1997 1019 1027
3. T. Kodama High-temperature solar chemistry for converting solar heat to chemical fuels Progr Energy Combust Sci 29 2003 567 597
4. T. Nakamura Hydrogen production from water utilizing solar heat at high temperatures Solar Energy 19 1977 467 475
5. M. Lundberg Model calculations on some feasible two-step water splitting processes Int J Hydrogen Energy 18 1993 369 376
6. 4-reforming processes Int J Hydrogen Energy 20 1995 793 804
7. S. Abanades, and G. Flamant Thermochemical hydrogen production from a two-step solar-driven water-splitting cycle based on cerium oxides Solar Energy 80 2006 1611 1623
8. 2-supported Co(II)-ferrite Solar Energy 78 2005 623 631
9. 4 for solar hydrogen production Solar Energy 82 2008 73 79
10. 2 production by thermochemical two-step water splitting J Mater Sci 45 2010 4163 4173
11. H. Kaneko, S. Taku, Y. Naganuma, T. Ishihara, N. Hasegawa, and Y. Tamaura Development of reactive ceramics for conversion of concentrated solar heat into solar hydrogen with two-step water-splitting reaction J Solar Energy Eng 132 2010 0212021 0212024
12. 2 Energy 25 2000 201 218
13. 4-reduction with methane Energy 18 1993 239 249
14. A. Steinfeld, M. Brack, A. Meier, A. Weidenkaff, and D. Wuillemin A solar chemical reactor for co-production of zinc and synthesis gas Energy 23 1998 803 814
15. 2 solid solution at moderate temperature Appl Catal A 183 1999 317 324
16. T. Kodama, T. Shimizu, T. Satoh, M. Nakata, and K.I. Shimizu Stepwise production of CO-rich syngas and hydrogen via solar methane reforming by using a Ni(II)-ferrite system Solar Energy 73 2002 363 374
17. K.S. Go, S.R. Son, and S.D. Kim Reaction kinetics of reduction and oxidation of metal oxides for hydrogen production Int J Hydrogen Energy 33 2008 5986 5995
18. 4 as an oxidant for two-step thermochemical methane reforming Int J Hydrogen Energy 33 2008 4560 4568
19. 2 for two-step methane reforming/water splitting Int J Hydrogen Energy 35 2010 568 576
20. H.H. Jeong, J.H. Kwak, G.Y. Han, and K.J. Yoon Stepwise production of syngas and hydrogen through methane reforming and water splitting by using a cerium oxide redox system Int J Hydrogen Energy 36 2011 15221 15230
21. 3/W redox system Energy 25 2000 411 425
22. 3 as an oxidant below 1173 K by a solar furnace simulator Solar Energy 71 2001 315 324
23. 3-redox catalyst Energy 28 2003 1055 1068
24. A. Sim, N.W. Cant, and D.L. Trimm Ceria-zirconia stabilized tungsten oxides for the production of hydrogen by the methane-water redox cycle Int J Hydrogen Energy 35 2010 8953 8961
25. M. Steinberg, and H.C. Cheng Modern and prospective technologies for hydrogen production from fossil fuels Int J Hydrogen Energy 14 1989 797 820
26. 2-free hydrogen production Carbon 42 2004 2641 2648
27. B.D. Cullity Elements of X-ray diffraction 2nd ed. 1978 Addison-Wesley Reading 102