Characteristics and CLOU Performance of a Novel SiO sub(2)-Supported Oxygen Carrier Prepared from CuO and beta -SiC

Characteristics and CLOU Performance of a Novel SiO sub(2)-Supported Oxygen Carrier Prepared from CuO and beta -SiC

An effective copper-based oxygen carrier for use in chemical looping with oxygen uncoupling (CLOU) has been developed, and its physical and reactive properties have been evaluated. The preparation method involves coating beta -SiC support material with CuO and then baking the coated material at 980...

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Veröffentlicht in:Energy & fuels 2013-10, Vol.27 (10), p.6040-6047-6040-6047
Hauptverfasser: Peterson, Sean B, Konya, Gabor, Clayton, Christopher K, Lewis, Robert J, Wilde, Blake R, Eyring, Edward M, Whitty, Kevin J
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Sprache:eng
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Agglomeration
Baking
Carriers
Coating
Deposition
Fluidizing
Silicon carbide
Silicon dioxide
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container_end_page 6047-6040-6047
container_issue 10
container_start_page 6040
container_title Energy & fuels
container_volume 27
creator Peterson, Sean B
Konya, Gabor
Clayton, Christopher K
Lewis, Robert J
Wilde, Blake R
Eyring, Edward M
Whitty, Kevin J
description An effective copper-based oxygen carrier for use in chemical looping with oxygen uncoupling (CLOU) has been developed, and its physical and reactive properties have been evaluated. The preparation method involves coating beta -SiC support material with CuO and then baking the coated material at 980 degree C which causes the beta -SiC to convert to SiO sub(2), thus enveloping the CuO. Variations of the preparation technique, including different forms of SiC, methods of CuO addition, and the order of CuO addition and baking, were tested. It was determined that preparation by rotary evaporation CuO deposition and final sintering produced superior carrier particles. Loadings as high as 60 wt % CuO were achieved. The carrier particles fluidized well, and for loadings to 40 wt % CuO, no agglomeration was observed at temperatures as high as 1000 degree C. The particles retained reactivity over many oxidation and reduction cycles. The coat-then-bake preparation method using beta -SiC is a viable candidate to be used as oxygen carrying material in CLOU.
doi_str_mv 10.1021/ef401365h
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subjects Agglomeration
Baking
Carriers
Coating
Deposition
Fluidizing
Silicon carbide
Silicon dioxide
title Characteristics and CLOU Performance of a Novel SiO sub(2)-Supported Oxygen Carrier Prepared from CuO and beta -SiC
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