Comparative study of activity of cerium oxide at thermal reduction temperatures of 1300-1550 C for solar thermochemical two-step water-splitting cycle

International Journal of Hydrogen Energy

Volumn 38, Issue 34, 2013, Pages 14402-14414

  Gokon, Nobuyuki ^a   Sagawa, Sachi ^a   Kodama, Tatsuya ^a  

^a NIIGATA UNIVERSITY   (Japan)

Author keywords

Cerium oxide; Energy conversion; Hydrogen production; Redox cycle; Solar heat; Thermochemical water splitting

Indexed keywords

CERIUM OXIDES; CONCENTRATED SOLAR RADIATION; PRODUCTION OF HYDROGEN; REDOX CYCLES; TEMPERATURE DEPENDENCIES; THERMO-CHEMICAL WATER SPLITTING; WATER DECOMPOSITION; WATER-SPLITTING CYCLE;

ENERGY CONVERSION; HYDROGEN PRODUCTION; OXYGEN; PRODUCTIVITY; REDOX REACTIONS; SOLAR HEATING; ZIRCONIA;

OXIDES;

EID: 84886718208     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2013.08.108     Document Type: Article

References (35)

1. T. Kodama High-temperature solar chemistry for converting solar heat to chemical fuels Prog Energy Combust Sci 29 2003 567 597
2. A. Steinfeld Solar thermochemical production of hydrogen - a review Sol Energy 78 5 2005 603 615
3. T. Kodama, and N. Gokon Thermochemical cycles for high-temperature solar hydrogen production Chem Rev 107 2007 4048 4077
4. S. Abanades, and G. Flamant Thermochemical hydrogen production from a two-step solar-driven water-splitting cycle based on cerium oxides Sol Energy 80 2006 1611 1623
5. 4 for solar hydrogen production Sol Energy 82 2008 73 79
6. 4 powders and ceramic foam devices Sol Energy 83 4 2009 527 537
7. 4 particles Proceedings of 16th SolarPACES 2009 conference (Berlin, Germany, September 15-18, 2009) 2009 SolarPACES, Germany (USB Publication)
8. 4 for the two-step water-splitting thermochemical cycle at high thermal reduction temperatures of 1400-1600 C Int J Hydrogen Energy 34 2009 1208 1217
9. 2 in fused iron catalyst and its influence on the reactivity of the catalyst Mater Chem Phys 53 1998 67 72
10. T. Kodama, Y. Nakamuro, and T. Mizuno A two-step thermochemical water splitting by iron-oxide on stabilized zirconia ASME J Sol Energy Eng 128 1 2006 3 7
11. N. Gokon, T. Hasegawa, S. Takahashi, and T. Kodama Thermochemical two-step water-splitting for hydrogen production using Fe-YSZ particles and a ceramic foam device Energy 33 2008 1407 1416
12. T. Kodama, T. Hasegawa, A. Nagasaki, and N. Gokon A reactive Fe-YSZ coated foam device for solar two-step water splitting ASME J Sol Energy Eng 131 2009 021008-1 021008-7
13. N. Gokon, T. Mizuno, Y. Nakamuro, and T. Kodama Iron-containing YSZ (Yttria-Stabilized Zirconia) system for a two-step thermochemical water splitting ASME J Sol Energy Eng 130 1 2008 011018-1 011018-6
14. R.B. Diver, J.E. Miller, M.D. Allendorf, N.P. Siegel, and R.E. Hogan Solar thermochemical water-splitting ferrite-cycle heat engines, proceedings of the ASME solar energy division International solar energy conference (ISEC), Denver, Colorado, USA, 2006 2006 CD-ROM Publication 0-89553-178-X ISEC2006-99147
15. R.B. Diver, N.P. Siegel, J.E. Miller, T.A. Moss, J.N. Stuecker, and D.L. James Development of a CR5 solar thermochemical heat engine prototype 14th Biennial CSP SolarPACES symposium (LasVegas, NV, March 4-7, 2008), SolarPACES, U.S.A 2008 CD-ROM Publication
16. R.B. Diver, J.E. Miller, N.P. Siegel, and T.A. Moss Testing of a CR5 solar thermochemical heat engine prototype Proceedings of the ASME 2010 4th international conference on energy sustainability, ES2010, May 17-22, 2010, Phoenix, Arizona, USA 2010 CD-ROM Publication ES2010-90093
17. H. Kaneko, T. Miura, A. Fuse, H. Ishihara, S. Taku, and H. Fukuzumi Rotary-type solar reactor for solar hydrogen production with two-step water splitting process Energy Fuels 21 4 2007 2287 2293
18. M. Roeb, C. Sattler, R. Klüser, N. Monnerie, L. Oliveira, and A.G. Konstandopoulos Solar hydrogen production by a two-step cycle based on mixed iron oxides ASME J Sol Energy Eng 128 2 2006 125 133
19. C. Agrafiotis, M. Roeb, A.G. Konstandopoulos, L. Nalbandian, V.T. Zaspalis, and C. Sattler Solar water splitting for hydrogen production with monolithic reactors Sol Energy 79 2005 409 421
20. M. Roeb, M. Neises, J.P. Säck, P. Rietbrock, N. Monnerie, and J. Dersch Operational strategy of a two-step thermochemical process for solar hydrogen production Int J Hydrogen Energy 34 10 2009 4537 4545
21. M. Roeb, J.P. Säck, P. Rietbrock, C. Prahl, H. Schreiber, and M. Neises Test operation of a 100 kW pilot plant for solar hydrogen production from water on a solar tower Sol Energy 85 4 April 2011 634 644
22. N. Gokon, S. Takahashi, H. Yamamoto, and T. Kodama Thermochemical two-step water-splitting reactor with internally circulating fluidized bed for thermal reduction of ferrite particles Int J Hydrogen Energy 33 9 2008 2189 2199
23. N. Gokon, S. Takahashi, H. Yamamoto, and T. Kodama New solar water-splitting reactor with ferrite particles in an internally circulating fluidized bed ASME J Sol Energy Eng 131 1 2009 011007-1 011007-9
24. 4 particles for thermochemical two-step water splitting ASME J Sol Energy Eng 132 2 2010 021102-1 021102-10
25. 4 particles: successive reaction of thermal-reduction and water-decomposition steps Int J Hydrogen Energy 36 8 2011 4757 4767
26. T. Kodama, T. Seo, N. Gokon, J.H. Lee, S.J. Oh, and K. Sakai 5 kWth-solar demonstration of a ferrite foam device reactor for thermochemical two-step water-splitting Proceedings of SolarPACES2010, September 21-25 2010, Perpinan, France 2010 USB Publication
27. N. Gokon, T. Kodama, N. Imaizumi, J. Umeda, and T. Seo Ferrite/zirconia-coated foam device prepared by spin coating for solar demonstration of thermochemical water-splitting Int J Hydrogen Energy 36 3 2011 2014 2028
28. 2 generation by two-step water splitting using concentrated solar thermal energy Energy 32 2007 656 663
29. N.P. Siegel, T. Garino, E.N. Coker, S. Livers, A. Ambrosini, and J.E. Miller Implementation of Cerium oxide structures in solar fuel production systems Proceedings of SolarPACES2010 conference (Perpinan, France, September 21-25 2010), SolarPACES, France 2010 USB Publication
30. 2 production by thermochemical two-step water- splitting J Mater Sci 45 2010 4163 4173
31. 2O using Nonstoichiometric ceria Science 330 2010 1797 1801
32. 2 mitigation Philos Trans Royal Soc A 368 2010 3269 3294
33. 2 via ceria redox reactions in a high-temperature solar reactor Energy Environ Sci 5 2012 6098 6103
34. A.R. Deton, and N.W. Ashcroft Vegard's law Phys Rev A 43 6 1991 3161 3164
35. Inorganic crystal structure database (ICSD) version 2010