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  4. Photocatalytic CO2 reduction using an internally illuminated monolith photoreactor
 
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Photocatalytic CO2 reduction using an internally illuminated monolith photoreactor

Journal
Energy and Environmental Science
Journal Volume
4
Journal Issue
4
Pages
1487-1494
Date Issued
2011
Author(s)
Liou, P.-Y.
Chen, S.-C.
Wu, J.C.S.
Liu, D.
MacKintosh, S.
Maroto-Valer, M.
Linforth, R.
JEFFREY CHI-SHENG WU  
DOI
10.1039/c0ee00609b
URI
http://www.scopus.com/inward/record.url?eid=2-s2.0-79953655347&partnerID=MN8TOARS
http://scholars.lib.ntu.edu.tw/handle/123456789/363150
Abstract
One of the promising solutions to both global climate warming and increasing energy demands is artificial photosynthesis, which can be implemented via the photoreduction of CO2 to produce fuel. A monolith photoreactor was used to increase the amount of catalyst loading due to its multiple channels. The photocatalyst was dip coated using NiO/InTaO4 sol and then calcined at 1100 °C. A uniform NiO/InTaO4 layer was obtained on the top of pre-coated SiO2 sublayer on the internal channels of the monolith. The polymethylmethacrylate (PMMA) optical fibers, after being carved on their surface, could transmit and scatter light to effectively illuminate the catalyst inside the channels of the monolith. Vapor-phase CO2 with H2O was photocatalytically reduced to hydrocarbons by UV or visible-light in a steady-state flow mode. The maximum methanol conversion rate achieved was 0.16 mol g-1 h-1 with visible-light of 290 klx at 25 °C. The highest rate of acetaldehyde was 0.3 mol g-1 h-1 which was obtained with a loading of 2.6% NiO by simulated sunlight AM1.5G at 70 °C. More importantly, the quantum efficiency was significantly improved indicating that photon energy was effectively utilized in the monolith reactor, compared with previous optical-fiber reactor. © 2011 The Royal Society of Chemistry.
SDGs

[SDGs]SDG13

Other Subjects
Artificial photosynthesis; Catalyst loadings; Energy demands; Global climate warming; Internal channel; Methanol conversion; Monolith reactors; Multiple channels; Photo-catalytic; Photo-reduction; Photon energy; Photoreactors; Simulated sunlight; Steady-state flows; Vapor Phase; Visible light; Aldehydes; Calcination; Catalysts; Hydrocarbons; Methanol; Optical fibers; Silicon compounds; Monolithic integrated circuits; acetaldehyde; carbon dioxide; catalysis; catalyst; ester; global climate; global warming; methanol; photodegradation; photosynthesis; quantum mechanics; steady-state equilibrium; transformation; visible spectrum
Type
journal article

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