Monoclinic zirconia-supported Fe3O4 for the two-step water-splitting thermochemical cycle at high thermal reduction temperatures of 1400-1600 °C

International Journal of Hydrogen Energy

Volumn 34, Issue 3, 2009, Pages 1208-1217

  Gokon, Nobuyuki ^a   Murayama, Hiroko ^a   Umeda, Jun ^a   Hatamachi, Tsuyoshi ^a   Kodama, Tatsuya ^a  

^a NIIGATA UNIVERSITY   (Japan)

Author keywords

Energy conversion; Hydrogen production; Iron oxide; Solar heat; Thermochemical cycle; Water splitting; Zirconia

Indexed keywords

CHEMICAL REACTIONS; DECOMPOSITION; ENERGY CONVERSION; GAS FUEL MANUFACTURE; GAS PRODUCERS; GRAFTING (CHEMICAL); HYDROGEN; IRON COMPOUNDS; IRON OXIDES; LIQUEFIED GASES; LIQUID NITROGEN; NONMETALS; PHASE TRANSITIONS; QUENCHING; REDUCTION; SOLAR ENERGY; SOLAR HEATING; SOLAR POWER GENERATION; SYNTHESIS (CHEMICAL); THERMOCHEMISTRY; WATER ANALYSIS; ZIRCONIA; ZIRCONIUM ALLOYS;

FE IONS; HIGH THERMAL; IRON OXIDE; MONOCLINIC ZIRCONIA; REDUCTION TEMPERATURES; SOLAR HEAT; THERMOCHEMICAL CYCLE; WATER-SPLITTING;

HYDROGEN PRODUCTION;

EID: 58649122461     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2008.12.007     Document Type: Article

References (29)

1. Bilgen E., and Joels R. An assessment of solar hydrogen production using the Mark 13 hybrid process. Int J Hydrogen Energy 10 3 (1985) 143-155
2. Sakurai M., Bilgen E., Tsutsumi A., and Yoshida K. Solar UT-3 thermochemical cycle for hydrogen production. Solar Energy 57 1 (1996) 51-58
3. Kodama T. High-temperature solar chemistry for converting solar heat to chemical fuels. Prog Energy Combust Sci 29 (2003) 567-597
4. Steinfeld A. Solar thermochemical production of hydrogen - a review. Solar Energy 78 (2005) 603-615
5. Ihara S. On the study of hydrogen production from water using solar thermal energy. Int J Hydrogen Energy 5 (1980) 527
6. Kogan A. Direct solar thermal splitting of water and on-site separation of the products-II. Experimental feasibility study. Int J Hydrogen Energy 23 2 (1998) 89
7. Kodama T., and Gokon N. Thermochemical cycles for high-temperature solar hydrogen production. Chem Rev 107 10 (2007) 4048-4077
8. Nakamura T. Hydrogen production from water utilizing solar heat at high temperatures. Solar Energy 19 (1977) 467-475
9. Darken L.S., and Gurry R.W. The system iron-oxygen. II. Equilibrium and thermodynamics of liquid oxide and other phases. J Am Chem Soc 68 5 (1946) 798-816
10. Lundberg M. Model calculations on some feasible two-step water splitting processes. Int J Hydrogen Energy 18 5 (1993) 369-376
11. 1-yO. Solid State Ionics 78 (1995) 151-160
12. 2O atmosphere. Solid State Ionics 90 (1996) 75-81
13. Tamaura Y., Steinfeld A., Kuhn P., and Ehrensberger K. Production of solar hydrogen by a novel, 2-step, water-splitting thermochemical cycle. Energy 20 4 (1995) 325-330
14. Roeb M., Neises M., Säck J.P., Rietbrock P., Monnerie N., Dersch J., et al. Operational strategy of a two-step thermochemical process for solar hydrogen production. Int J Hydrogen Energy (2008) 10.1016/j.ijhydene.2008.08.049
15. Gokon N., Mizuno T., Takahashi S., and Kodama T. 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
16. 2 production with two-step water splitting reaction. Proceedings of 2008 14th Biennial CSP SolarPACES Symposium on concentrated solar power and chemical energy technologies (SolarPACES) 2008 (LasVegas, 2008) (March 4-7, 2008), SolarPACES, LasVegas, NV, USA (CD-ROM publication)
17. Diver R.B., Siegel N.P., Miller J.E., Moss T.A., Stuecker J.N., and James D.L. Development of a CR5 solar thermochemical heat engine prototype. Proceedings of 2008 14th Biennial CSP SolarPACES Symposium on concentrated solar power and chemical energy technologies (SolarPACES) 2008 (LasVegas, 2008) (March 4-7, 2008), SolarPACES, LasVegas, NV, USA (CD-ROM publication)
18. Kodama T, Kondoh Y, Kiyama A, Shimizu KI. Hydrogen production by solar thermochemical water-splitting/methane-reforming process. In: Thornbloom MD, Jones SA, editors. Proceedings of international solar energy conference (ISEC) (Hawaii, 2003); 2003. ISES2003-44037 (CD publication).
19. 2-supported Co(II)-ferrite. Solar Energy 78 (2005) 623-631
20. Gokon N., Mizuno T., Takahashi S., and Kodama T. A two-step water splitting with ferrite particles and its new reactor concept using an internally circulating fluidized bed. In: Morehouse J.H., and Krarti M. (Eds). Proceedings of ASME international solar energy conference (ISEC) (Denver, 2006) (2006), ASME, New York ISEC2006-99063 (CD-ROM publication)
21. 4 for solar hydrogen production. Solar Energy 82 1 (2008) 73-79
22. Kodama T., Nakamuro Y., and Mizuno T. A two-step thermochemical water splitting by iron-oxide on stabilized zirconia. J Solar Energy Eng 128 1 (2006) 3-7
23. Ishihara H., Kaneko H., Yokoyama T., Fuse A., Hasegawa N., and Tamaura Y. Hydrogen production through two-step water splitting using YSZ (Ni, Fe) system for solar hydrogen production. Proceedings of ASME international solar energy conference (ISEC) (Orlando, Florida, 2005) (2005), ASME, New York ISEC2005-76151 (CD-ROM publication)
24. Gokon N., Mizuno T., Nakamuro Y., and Kodama T. Iron-containing YSZ (yttrium-stabilized zirconia) system for a two-step thermochemical water splitting. In: Romero M., Martinez D., Ruiz V., Silva M., and Brown M. (Eds). Thirteenth international symposium on concentrated solar power and chemical energy technologies (SolarPACES) (Sevilla, 2006) (2006), SolarPACES, Seville, Spain B2-S12 (CD-ROM publication)
25. Gokon N., Mizuno T., Nakamuro Y., and Kodama T. Iron-containing YSZ (yttrium-stabilized zirconia) system for a two-step thermochemical water splitting. J Solar Energy Eng 130 1 (2008) 011018-1-011018-6
26. 2 production using concentrated solar radiation. Engineering 2004, proceedings of the international solar energy conference (Portland, Oregon, 2004) (2004), ASME International, New York
27. Charvin P., Abanades S., Lemort F., and Flamant G. Experimental evaluation of promising solar thermochemical cycles for hydrogen production. In: Romero M., Martinez D., Ruiz V., Silva M., and Brown M. (Eds). Proceedings of 13th international symposium on concentrated solar power and chemical energy technologies (SolarPACES) (Seville, 2006) (2006), SolarPACES, Seville, Spain FB2-S7 (CD-ROM publication)
28. Charvin P., Abanades S., Flamant G., and Lemort F. Two-step water splitting thermochemical cycle based on iron oxide redox pair for solar hydrogen production. Energy 32 7 (2007) 1124-1133
29. Zhang F., Chupas P.J., Lui S.L.A., Hanson J.C., Caliebe W.A., Lee P.L., et al. In situ study of the crystallization from amorphous to cubic zirconium oxide: Rietveld and reverse Monte Carlo analyses. Chem Mater 19 (2007) 3118-3126