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Effect of MnOx/TiO 2 Oxidation State on Ozone Concentration in a Non-Thermal Plasma Driven Catalysis Reactor

Manganese oxides on titanium dioxide were prepared by impregnation method at various calcination temperatures and by deposition-precipitation method and the catalysts were characterized using TG-DTA, XRD, XPS, and N 2 adsorption. Various oxidation states for manganese were obtained and activity towa... Full description

Journal Title: Ozone: Science & Engineering 18 September 2015
Main Author: Pangilinan, Christian David C.
Other Authors: Kurniawan, Winarto , Hinode, Hirofumi
Format: Electronic Article Electronic Article
Language: English
Subjects:
Publisher: Taylor & Francis
ID: ISSN: 0191-9512 ; E-ISSN: 1547-6545 ; DOI: 10.1080/01919512.2015.1091720
Link: http://dx.doi.org/10.1080/01919512.2015.1091720
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recordid: tayfranc10.1080/01919512.2015.1091720
title: Effect of MnOx/TiO 2 Oxidation State on Ozone Concentration in a Non-Thermal Plasma Driven Catalysis Reactor
format: Article
creator:
  • Pangilinan, Christian David C.
  • Kurniawan, Winarto
  • Hinode, Hirofumi
subjects:
  • Dielectric Barrier Discharge Reactor
  • Manganese Oxides
  • Non-Thermal Plasma Catalysis
  • Ozone
  • Titanium Dioxide
ispartof: Ozone: Science & Engineering, 18 September 2015
description: Manganese oxides on titanium dioxide were prepared by impregnation method at various calcination temperatures and by deposition-precipitation method and the catalysts were characterized using TG-DTA, XRD, XPS, and N 2 adsorption. Various oxidation states for manganese were obtained and activity towards ozone decomposition inside a non-thermal plasma catalysis reactor was investigated. Activity tests show that with increasing manganese oxidation state, the greater the degree of ozone decomposition inside the reactor. MnOx/TiO 2 prepared by impregnation method calcined at 350°C showed the highest decrease in ozone concentration. Article just-accepted.
language: eng
source:
identifier: ISSN: 0191-9512 ; E-ISSN: 1547-6545 ; DOI: 10.1080/01919512.2015.1091720
fulltext: fulltext
issn:
  • 0191-9512
  • 01919512
  • 1547-6545
  • 15476545
url: Link


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titleEffect of MnOx/TiO 2 Oxidation State on Ozone Concentration in a Non-Thermal Plasma Driven Catalysis Reactor
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subjectDielectric Barrier Discharge Reactor ; Manganese Oxides ; Non-Thermal Plasma Catalysis ; Ozone ; Titanium Dioxide
descriptionManganese oxides on titanium dioxide were prepared by impregnation method at various calcination temperatures and by deposition-precipitation method and the catalysts were characterized using TG-DTA, XRD, XPS, and N 2 adsorption. Various oxidation states for manganese were obtained and activity towards ozone decomposition inside a non-thermal plasma catalysis reactor was investigated. Activity tests show that with increasing manganese oxidation state, the greater the degree of ozone decomposition inside the reactor. MnOx/TiO 2 prepared by impregnation method calcined at 350°C showed the highest decrease in ozone concentration. Article just-accepted.
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descriptionAbstract22 Manganese oxides on titanium dioxide were prepared by impregnation method at various calcination temperatures and by deposition-precipitation method and the catalysts were characterized using TG-DTA, XRD, XPS, and N 2 adsorption. Various oxidation states for manganese were obtained and activity towards ozone decomposition inside a non-thermal plasma catalysis reactor was investigated. Activity tests show that with increasing manganese oxidation state, the greater the degree of ozone decomposition inside the reactor. MnOx/TiO 2 prepared by impregnation method calcined at 350°C showed the highest decrease in ozone concentration.
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abstractAbstract22 Manganese oxides on titanium dioxide were prepared by impregnation method at various calcination temperatures and by deposition-precipitation method and the catalysts were characterized using TG-DTA, XRD, XPS, and N 2 adsorption. Various oxidation states for manganese were obtained and activity towards ozone decomposition inside a non-thermal plasma catalysis reactor was investigated. Activity tests show that with increasing manganese oxidation state, the greater the degree of ozone decomposition inside the reactor. MnOx/TiO 2 prepared by impregnation method calcined at 350°C showed the highest decrease in ozone concentration.
pubTaylor & Francis
doi10.1080/01919512.2015.1091720
volume38
issue2
pages156-162
date2015-09-18