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Journal of the Korean Industrial and Engineering Chemistry, Vol.18, No.4, 303-313, August, 2007
휘발성 유기화합물 제거를 위한 폐 촉매의 이용
Utilization of Spent Catalysts for the Removal of VOCs
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초록
화학 산업과 관련된 많은 사업장에서 다양한 종류의 촉매를 사용하고 있으며 이들 촉매의 활성이 감소하면 산업 폐기물로서 폐기하고 있다. 또한 자동차에서 발생하는 폐 촉매의 양도 꾸준히 증가하고 있다. 활성이 감소되어 폐기된 촉매는 촉매가 지니고 있는 물리화학적 특성, 관련 환경 규제 및 경제적 효과를 고려하여 재생, 재이용, 또는 폐기될 수 있다. 폐기된 촉매는 휘발성 유기화합물(VOCs) 제거에 효과적인 것으로 알려진 귀금속이나 금속산화물을 포함하고 있으므로 적절한 처리과정을 거치면 VOCs 제거에 이용할 수 있다. 따라서 본 총설에서는 폐 촉매의 발생 및 사용 현황을 요약 정리하였으며, 특히 재생된 폐 촉매상에서 VOCs 촉매산화반응을 조사하여 그 결과를 소개하였다.
Various commercial catalysts used in chemical related applications have been disposed as an industrial waste when the catalytic activity of catalysts is not good enough to achieve an optimum yield. In addition, the amount of disposed three way catalysts (TWC) has been continuously increased. Considering the physicochemical, environmental, and economical characteristics, the deactivated spent catalysts can be treated in several alternative ways such as regeneration, recycling, and disposal. In view of the environmental and economical matters, the spent catalyst should be regenerated and used for the various purposes, although its activity is not as good as a fresh catalyst. On the other hand, spent catalysts containing noble and metal oxides can be applicable for the catalytic oxidation of volatile organic compounds (VOCs) by applying the proper treatment method. Therefore in this review the quantity of the spent catalysts and the available regeneration methods for the spent catalysts are briefly summarized and especially the proper regeneration method for applying the catalytic oxidation of VOCs and its results are introduced.
- Ruddy EN, Carroll LA, Chem. Eng. Prog., 89, 28 (1993)
- Khan I, Ghoshal AK, J. Loss. Prevent. Proc., 13, 527 (2000)
- 한화진, 이영수, 윤정임, VOCs 방지기술 현황 및 적용사례, 한국 환경정책-평가연구원 (1997)
- 환경부, 환경백서 (2004)
- 산업폐기물재활용기술개발사업단, 리사이클링 백서, 서울, 청문각 (2004)
- 환경부 보도자료 (2006)
- Trimm DL, Appl. Catal. A: Gen., 212(1-2), 153 (2001)
- Furimsky E, Massoth FE, Catal. Today, 17, 537 (1993)
- Trimm DL, Stud. Surf. Sci. Catal., 53, 41 (1990)
- Furimsky E, Catal. Today, 30(4), 223 (1996)
- Yoo JS, Catal. Today, 44(1-4), 27 (1998)
- Kim JH, Seo MG, Yang JG, Kim JS, J. Korean Inst. of Resources Recycling, 7, 9 (1998)
- Lee J, Jeong J, Kim BS, Kim MS, Chon YS, J. Korean Inst. of Resources Recycling, 13, 14 (2004)
- Lee HS, Oh YS, Lee WC, J. Korean Inst. of Resources Recycling, 13, 3 (2004)
- Lee J, Jeong J, Kim MS, Kim BS, Kim CK, J. Korean Inst. of Resources Recycling, 13, 28 (2004)
- Kim MA, Lee J, Kim CK, Kim MS, Kim BS, Yoo K, J. Korean Inst. of Resources Recycling, 15, 3 (2006)
- Chen Y, Feng Q, Shao Y, Zhang G, Ou L, Lu Y, Miner. Eng., 19, 94 (2006)
- 한국지질자원연구원, 핵심소재자원 유통분석과 지질자원 법제화 연구, 국무총리 비서실 (2003)
- 신현길, 정유산업 폐 촉매의 활용, 화학공학연구정보센터 (2002)
- Kim SC, Nahm SW, Shim WG, Lee JW, Moon H, J. Hazard. Mater., 141, 305 (2007)
- Kim SC, J. Hazard. Mater., 91, 585 (2002)
- Shim WG, Kim SC, Kang HC, Nahm SW, Lee JW, Moon H, Appl. Surf. Sci., 253, 5868 (2007)
- Shim WG, Lee JW, Kim SC, J. Nanosci. Nanotechnol., in print
- Muller CA, Maciejewski M, Koeppel RA, Baiker A, J. Catal., 166(1), 36 (1997)
- Matsumura Y, Shen WJ, Ichihashi Y, Okumura M, J. Catal., 197(2), 267 (2001)
- Kim SC, Seo SG, Yu EY, Clean Technol., 6(1), 17 (2000)
- Zhou J, Xia QH, Shen SC, Kawi S, Hidajat K, J. Catal., 225(1), 128 (2004)
- Nahm SW, Shim WG, Kim SC, J. Korean Soc. Atmos. Environ., 8, 431 (2006)
- Kim SC, Utilization technology and system development of the spent catalysts for VOCs removal (2006)