Photocatalytic degradation of gaseous tetrachloroethylene on porous TiO2 pellets

The photo-assisted catalytic degradation of tetrachloroethylene (PCE) was studied in a tubular photoreactor packed with TiO2 pellets prepared by sol–gel method. The experiments were performed in a noncirculating mode. Dichloroacetate on the catalyst surface together with phosgene and CCl4 in the gas...

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Published inApplied catalysis. B, Environmental Vol. 33; no. 2; pp. 109 - 117
Main Authors Yamazaki, Suzuko, Tsukamoto, Hidekazu, Araki, Kensuke, Tanimura, Toshifumi, Tejedor-Tejedor, Isabel, Anderson, Marc A.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 28.09.2001
Subjects
Photocatalyst
Sol–gel method
Tetrachloroethylene (PCE)
TiO2
Tetrachloroethylene (PCE)
Sol–gel method
Photocatalyst
TiO2
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Abstract The photo-assisted catalytic degradation of tetrachloroethylene (PCE) was studied in a tubular photoreactor packed with TiO2 pellets prepared by sol–gel method. The experiments were performed in a noncirculating mode. Dichloroacetate on the catalyst surface together with phosgene and CCl4 in the gas phase were detected. The effects of operating conditions on the observed rate of reaction were investigated. Water vapor competed with PCE for the same adsorption sites on the TiO2 surface. Therefore, reaction rates decreased when the mole fraction of H2O was 50–60 times higher than that of PCE. Reaction temperature and space time play key roles in the degradation of PCE to CO2. Under the best of our experimental conditions, 80% of the initial PCE could be completely mineralized.
AbstractList The photo-assisted catalytic degradation of tetrachloroethylene (PCE) was studied in a tubular photoreactor packed with TiO2 pellets prepared by sol–gel method. The experiments were performed in a noncirculating mode. Dichloroacetate on the catalyst surface together with phosgene and CCl4 in the gas phase were detected. The effects of operating conditions on the observed rate of reaction were investigated. Water vapor competed with PCE for the same adsorption sites on the TiO2 surface. Therefore, reaction rates decreased when the mole fraction of H2O was 50–60 times higher than that of PCE. Reaction temperature and space time play key roles in the degradation of PCE to CO2. Under the best of our experimental conditions, 80% of the initial PCE could be completely mineralized.
Author Tanimura, Toshifumi
Tejedor-Tejedor, Isabel
Anderson, Marc A.
Tsukamoto, Hidekazu
Araki, Kensuke
Yamazaki, Suzuko
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  surname: Anderson
  fullname: Anderson, Marc A.
  organization: Environmental Chemistry and Technology Program, University of Wisconsin-Madison, Madison, WI 63706, USA
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Keywords Tetrachloroethylene (PCE)
Sol–gel method
Photocatalyst
TiO2
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Snippet The photo-assisted catalytic degradation of tetrachloroethylene (PCE) was studied in a tubular photoreactor packed with TiO2 pellets prepared by sol–gel...
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SubjectTerms Photocatalyst
Sol–gel method
Tetrachloroethylene (PCE)
TiO2
Title Photocatalytic degradation of gaseous tetrachloroethylene on porous TiO2 pellets
URI https://dx.doi.org/10.1016/S0926-3373(01)00167-9
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