Clean Technology (청정기술)

The Korean Society of Clean Technology (한국청정기술학회)
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Effect of Co-catalyst CeO2 on NOx Reduction in PtNi/W-TiO2 Catalysts for Low-temperature H2-SCR

저온 H2-SCR용 PtNi/W-TiO2 촉매에 조촉매 CeO2가 NOx 저감에 미치는 영향

  • Jungsoo Kim (Department of Convergence Engineering, Graduate School of Venture Hoseo University) ;
  • Younghee Kim (Department of Convergence Engineering, Graduate School of Venture Hoseo University)
  • 김정수 (호서대학교 벤처대학원 융합공학과) ;
  • 김영희 (호서대학교 벤처대학원 융합공학과)
  • Received : 2023.12.05
  • Accepted : 2023.12.14
  • Published : 2023.12.31
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Abstract

In order to increase the usability of H2-SCR, the NOx removal characteristics with catalyst powder of PtNi/CeO2-W-TiO2 using Ce as a co-catalyst was synthesized and coated on a porous metal structure (PMS) were evaluated. Catalyst powder of PtNi/CeO2-W-TiO2(PtNi nanoparticles onto W-TiO2, with the incorporation of ceria (CeO2) as a co-catalysts) was synthesized and coated onto a porous metal structure (PMS) to produce a Selective Catalytic Reduction (SCR) catalyst. H2-SCR with CeO2 as a co-catalyst exhibited higher NOx removal efficiency compared to H2-SCR without CeO2. Particularly, at a 10wt% CeO2 loading ratio, the NOx removal efficiency was highest at 90℃. As the amount of catalyst coating on PMS increased, the NOx removal efficiency was improved below 90℃, but it was decreased above 120℃. When the space velocity was changed from 4,000 h-1 to 20,000 h-1, the NOx removal efficiency improved at temperatures above 120℃. It was expected that the use of the catalyst could be reduced by applying the PMS with excellent specific surface area as a support.

대표적인 비암모니아성 선택적 촉매환원반응기인 H2-SCR의 활용성을 높이기 위하여 Ce를 조촉매로 활용한 PtNi/CeO2-W-TiO2의 촉매 분말을 합성하고 다공성 금속 구조(porous metal structure, PMS)에 코팅하여 선택적 촉매 환원에 의한 NOx 제거 특성을 평가하였다. CeO2를 조촉매로 사용한 H2-SCR은 CeO2를 사용하지 않은 경우에 비해 더 높은 NOx 제거 효율을 나타내었으며, CeO2 담지율 10 wt%에서는 반응온도 90℃에서 가장 높은 제거효율을 보였다. 한편, 촉매구조체인 PMS의 촉매 코팅량이 증가함에 따라 NOx 제거효율은 90℃ 이하에서는 향상되었으나, 120℃ 이상에서는 감소하는 경향을 보였고 공간속도를 4,000 h-1에서 20,000 h-1로 변경한 경우, 120℃이상의 온도에서 NOx 제거 효율이 향상되는 것을 확인할 수 있었다.

Keywords

Acknowledgement

본 연구는 중소기업벤처부의 그린벤처사업에서 지원받은 연구비(No. S3023447)로 수행되었습니다.

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