Heat transfer is predicted for a solid-solid heat recuperation system employed in a novel directly-irradiated solar thermochemical reactor realizing a metal oxide based nonstoichiometric redox cycle for production of synthesis gas from water and carbon dioxide. The system is designed for continuous operation with heat recuperation from a rotating hollow cylinder of a porous reactive material to a counter-rotating inert solid cylinder via radiative transfer. A transient heat transfer model coupling conduction, convection, and radiation heat transfer predicts temperatures, rates of heat transfer, and the effectiveness of heat recovery. Heat recovery effectiveness of over 50% is attained within a parametric study of geometric and material parameters corresponding to the design of a two-step solar thermochemical reactor.
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August 2013
Research-Article
Heat Transfer Analysis of a Solid-Solid Heat Recuperation System for Solar-Driven Nonstoichiometric Redox Cycles
Wojciech Lipiński
Wojciech Lipiński
1
e-mail: lipinski@umn.edu
University of Minnesota,
111 Church Street S.E.,
Minneapolis, MN 55455
Department of Mechanical Engineering
,University of Minnesota,
111 Church Street S.E.,
Minneapolis, MN 55455
1Corresponding author.
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Wojciech Lipiński
e-mail: lipinski@umn.edu
University of Minnesota,
111 Church Street S.E.,
Minneapolis, MN 55455
Department of Mechanical Engineering
,University of Minnesota,
111 Church Street S.E.,
Minneapolis, MN 55455
1Corresponding author.
Contributed by the Solar Energy Division of ASME for publication in the Journal of Solar Energy Engineering. Manuscript received April 3, 2012; final manuscript received December 17, 2012; published online March 22, 2013. Editor: Gilles Flamant.
J. Sol. Energy Eng. Aug 2013, 135(3): 031004 (11 pages)
Published Online: March 22, 2013
Article history
Received:
April 3, 2012
Revision Received:
December 17, 2012
Citation
Lapp, J., Davidson, J. H., and Lipiński, W. (March 22, 2013). "Heat Transfer Analysis of a Solid-Solid Heat Recuperation System for Solar-Driven Nonstoichiometric Redox Cycles." ASME. J. Sol. Energy Eng. August 2013; 135(3): 031004. https://doi.org/10.1115/1.4023357
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