Heat transfer analysis of a solid-solid heat recuperation system for solar-driven non-stoichiometric redox cycles

ASME 2012 6th International Conference on Energy Sustainability, ES 2012, Collocated with the ASME 2012 10th International Conference on Fuel Cell Science, Engineering and Technology

Volumn , Issue PARTS A AND B, 2012, Pages 1081-1092

  Lapp, Justin ^a   Davidson, Jane ^a   Lipiński, Wojciech ^a  

^a UNIVERSITY OF MINNESOTA   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CARBON DIOXIDE; CYLINDERS (SHAPES); FUEL CELLS; REDOX REACTIONS; SUSTAINABLE DEVELOPMENT; WASTE HEAT;

CONTINUOUS OPERATION; HEAT RECUPERATION; HEAT TRANSFER ANALYSIS; MATERIAL PARAMETER; NON-STOICHIOMETRIC; REACTIVE MATERIALS; THERMO-CHEMICAL REACTOR; TRANSIENT HEAT TRANSFER;

HEAT TRANSFER;

EID: 84900412381     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1115/ES2012-91078     Document Type: Conference Paper

References (25)

1. Steinfeld, A., and Palumbo, R, 2001, "Solar Thermochemical Process Technology," Encyclopedia of Physical Science and Technology, R. A. Meyers, eds., Academic Press, Burlington, v. 15, pp. 237-256.
2. Kodama, T, 2003, "High-temperature Solar Chemistry for Converting Solar Heat to Chemical Fuels," Progress in Energy and Combustion Science., 29, pp. 567-597.
3. Nakamura, T, 1977, "Hydrogen Production From Water Utilizing Solar Heat At High Temperatures," Solar Energy., 19, pp. 467-475.
4. Diver, R, Miller, J., Allendorf, M., Siegel, N., and Hogan, R, 2008, "Solar Thermochemical Water-Splitting Ferrite-Cycle Heat Engines," J. of Solar Energy Engineering, 130:041001.
5. Miller, J. E., and Allendorf, M. D., Diver, R. B., Evans, L. R., and Siegel., N. P., and Stuecker J. N., 2008 Metal Oxide Composites And Structures For Ultra-High Temperature Solar Thermochemical Cycles. Journal of Materials Science., 43, pp. 4714-4728.
6. Kodama, T., Nakamuro, Y., and Mizuno, T., 2006, "A Two-Step Themochemical Water Splitting By Iron-Oxide On Stabilized Zirconia," J. of Solar Energy Engineering, 128, pp. 3-7.
7. 2-Supported Co(II)-Ferrite," Solar Energy, 78, pp. 623-631.
8. Abanades, S., and Flamant, G., 2006, "Thermochemical Hydrogen Production From A Two-Step Solar-Driven Water-Splitting Cycle Based On Cerium Oxides," Solar Energy, 80, pp. 1611-1623.
9. 2 Mitigation," Philosophical Transactions Of The Royal Society A, 368, pp. 3269-3294.
10. 2 Production By Thermochemical Two-Step Water-Splitting," J. of Materials Science, 45, pp. 4163-4173.
11. 2O Using Nonstoichiometric Ceria," Science, 330 pp. 1797-1801.
12. Kaneko, H., Miura, T., Fuse, A., Ishihara, H., Taku, S., and Fukuzumi, H., et al 2007, "Rotary-Type Solar Reactor For Solar Hydrogen Production With Two-Step Water Splitting Process," Energy & Fuels, 21:2287-93.
13. Venstrom, L. J., Petkovich, N., Rudisill, S., Stein, A., and Davidson., J. H., 2012, "The Effect Of Morphology On The Oxidation Of Ceria By Water And Carbon Dioxide," J. of Solar Energy Engineering, 134:011005.
14. 2," ChemSusChem., 2, pp. 735-739.
15. 2 Generation By Two-Step Water Splitting Using Concentrated Solar Thermal Energy," Energy, 32, pp. 656-663.
16. 2 Binary Oxides For Enhanced Thermal Stability and Water Splitting Activity," J. of Physical Chemistry, 115, pp. 21022-21033.
17. 2-Based Ceramics For Solar Hydrogen Production Via A Two-Step WaterSplitting Cycle With Concentrated Solar Energy," Int. J. of Hydrogen Energy, 36, pp. 13435-13441.
18. 2 Partial Pressure In Two-Step Water Splitting Process." Solar Energy, 85, pp. 2321-2330.
19. Roeb, M., Säck, J. P., Rietbrock, P., Prahl, C., Schreiber, H., Neises, M., et al, 2011, "Test Operation Of A 100 kW Pilot Plant For Solar Hydrogen Production From Water On A Solar Tower," Solar Energy, 85, pp. 634-644.
20. Lapp, J. L., Lipiński, W. L., and Davidson, J. H., 2012, "Efficiency Of Two-Step Solar Thermochemical Non-Stoichiometric Redox Cycles With Heat Recovery," Energy, 37, pp. 591-600.
21. rd International Conference of Energy Sustainability ES2009, San Francisco.
22. Diver, R. B., and Siegel, N. P., Miller, J. E., and Moss, T. A., 2010, "Testing Of A CR5 Solar Thermochemical Heat Engine Prototype," Proc ASME 2010 4th International Conference On Energy Sustainability ES2010, Phoenix.
23. Zhukauskas, A., 1972, "Heat Transfer From Tubes In Cross Flow," Advances In Heat Transfer, Hartnett, J. P., Irvine, T. F., eds., Academic Press, New York, j. v. 8.
24. Rosseland, S., 1936, Theoretical Astrophysics; Atomic Theory And The Analysis Of Stellar Atmospheres And Envelopes, Clarendon Press, Oxford.
25. Modest, M,F., 2003, Radiative Heat Transfer, 2nd Ed., Academic Press, Burlington.