• Title/Summary/Keyword: dielectric barrier discharge - photocatalysts hybrid process

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Particle Formation and Growth in Dielectric Barrier Discharge - Photocatalysts Hybrid Process for SO2 Removal (SO2 제거를 위한 유전체 장벽 방전 - 광촉매 복합 공정에서의 입자 형성과 성장)

  • Nasonova, Anna;Kim, Dong-Joo;Kim, Kyo-Seon
    • Journal of Industrial Technology
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    • v.30 no.A
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    • pp.127-132
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    • 2010
  • We analyzed the effects of several process variables on the $SO_2$ removal and particle growth by the dielectric barrier discharge - photocatalysts hybrid process. In this process, $SO_2$ was converted into the ammonium sulfate ($(NH_4)_2SO_4$) particles. The size and crystallinity of ammonium sulfate particles were examined by using TEM and XRD analysis. The dielectric barrier discharge reactor consisted of two zones: the first is for plasma generation and the second is for ammonium sulfate particles formation and growth. The first zone of reactor was filled with glass beads as a dielectric material. To enhance $SO_2$ removal process, the $TiO_2$ photocatalysts were coated on glass beads by dip-coating method. As the voltage applied to the plasma reactor or the pulse frequency of applied voltage increases, the $SO_2$ removal efficiency increases. Also as the initial concentration of $SO_2$ decreases or as the residence time increases, the $SO_2$ removal efficiency increases. $(NH_4)_2SO_4$ particles continue to grow by particle coagulation and surface reaction, moving inside the reactor. Larger particles in site are produced according to the increase of residence time or $SO_2$ concentrations.

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NO and $SO_2$ Removal by Dielectric Barrier Discharge-Photocatalysts Hybrid Process (유전체 장벽 방전-광촉매 복합공정에 의한 NO와 $SO_2$ 제거)

  • Kim, Dong-Joo;Nasonova, Anna;Kim, Kyo-Seon
    • Clean Technology
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    • v.13 no.2
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    • pp.115-121
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    • 2007
  • In this study, we analyzed experimently the NO and $SO_2$ removal by the dielectric barrier discharge-photocatalysts hybrid process. The glass spheres were used as a dielectric material for dielectric barrier discharge and the $TiO_2$ photocatalysts were coated onto those spheres by the dip-coating method. The $TiO_2$ particles were coated in the sponge-shape, which has the larger surface area. As the voltage applied to the plasma reactor, the pulse frequency of applied voltage, or the residence time increases, the NO and $SO_2$ removal efficiencies increase. The increase in the supplied concentrations of NO and $SO_2$ leads to the higher energy for NO and $SO_2$ removal and the NO and $SO_2$ removal efficiencies decrease. These experimental results can be used as a basis to design the dielectric barrier discharge-photocatalysts hybrid process to remove NO and $SO_2$.

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