Journal of the Korea Safety Management & Science (대한안전경영과학회지)

Korea Safety Management & Science (대한안전경영과학회)
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A study of decomposition of harmful gases using Composite catalyst by Photocatalytic plasma reactions

복합촉매를 이용한 플라즈마 반응에 의한 유해가스의 제거에 관한 연구

  • Park, Hwa-Young (Department of Safety Engineering Graduate School, University of Incheon) ;
  • Kim, Kwan-Jung (Department of Safety Engineering Graduate School, University of Incheon) ;
  • Woo, In-Sung (Department of Safety Engineering Graduate School, University of Incheon)
  • Received : 2013.01.19
  • Accepted : 2013.03.18
  • Published : 2013.03.31
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Abstract

The objective of this study is to maintain the same frequency as the electrode material, concentration, duration of decomposition efficiency, power consumption and voltage measurements using a composite catalyst according to the change of process parameters to obtain the optimum state of the process and the maximum decomposition efficiency. In this paper, known as a major cause of air pollution, such as NO, NO2, SO2, frequency, flow rate, concentration, the material of the electrodes, and using TiO2 catalyst reactor with surface discharge caused by discharging the reactor plasma NOx, SOx decompose the harmful gas want to remove.

Keywords

References

  1. G. E. Vogtlin and B. M. Penetrante, " Pulsed corona discharge for removal of Nox form flue gas", NATO ASI Series, G34, Part A, pp. 187-198, 1993.
  2. T. takahashi, K. Tada, and T. Oda ,"Atmospheric Pressure Dicharge Plasma Decomposition for Gaseous Air Contaminants-Trichloroethylene", 靜電氣學會講演論文集, 15a, B4, pp. 11-14, 1997.
  3. Senichi Masuda, Hidyuki Nakao. "Control of NOx by positive and negative Pulsed Corona Discharges". IEEE Transaction on Industry Application. VOL. 26, NO. 2, pp. 374-383, 1990. https://doi.org/10.1109/28.54266
  4. A. Mizuno, Y. Yamazaki, H. Ito, and H.Yoshida,"ac Energized Ferroelectric Pellet Bed Gas Cleaner", IEEE Trans. Ind. App. 28(3), pp. 535-540, 1992. https://doi.org/10.1109/28.137431
  5. G. Dinelli, L. Civitano, and M. Rea, "Industrial Experiments on pulse corona simultaneous removal of NOx and SOx", IEEE Trans. Ind. Appl. 254. pp. 535-541, 1990.
  6. K. Shimizu and T. Oda, "NOx Treatment Using Non-Themal Plasma Catalyst and Addition of Hydrocarbons", Proc. of NEDO Symp. on Non-Thermal Discharge Plasma Technology for Air Pollution Control, pp. 122-131, 1997.
  7. 박성국, "Reduction and decomposition of hazardous NO_(x) and SO_(x) pollutants by discharging plasma with Titanium Oxide(TiO)", pp.50-80, 2008.
  8. 변영철 ,이기만 ,고동준 ,신동남 "Removal Characte ristics of NOx & SOx using Absorption Catalyst based Carbon",대한환경공학회지,Vol.33, No.1, pp. 39-46, 2011.
  9. Hwang seung Kwon, "A study on NOx reduction characteristics of LNT catalyst with fuel injection control in light-duty diesel engine", pp. 8-27, 2012.
  10. Geon seog son, Seung won yun, Seong Hyuk ko, Dae joong kim, Jae won song, Kwi young lee "A Study of Non-thermal Plasma Generation on a Photocatalytic Reactor Using a Ceramic Honeycomb Monolith Substrate ", 한국자동차공학회 논문집 pp. 48-54, 2002.
  11. M. A. Lieberman and A. J. Lichten berg,"Principles of Plasma Discharg es and Materials Processing.", John Wiley & Sons, Inc, New York 1994.
  12. R. Takahashi, Y. Kamase, and K.Yamamoto, "Decomposition of Chloro fluorocarbon Gas by a Pulsed Corona Discharge", 靜電氣學會講演論文集, 3a, C11, pp. 371-374, 1993.
  13. K. Fujii, M. Higashi, and N. Suzuki, "Simutaneous removal of NOx, COx, SOx and soot in diesel engine exhaust", NATO ASI Series, G34, Prat B, pp. 257-280, 1993.
  14. Ki sung kim, Han uk kim, "A Study on the Characteristics of Flames in a Valve Driven Oscillating Combustion Burner ", 한국연소학회지, Vol.9, No3, pp.130-137, 2004.
  15. I. Hanchisuka, T. Yoshida, H. Ueno, N. Takahashi, A.Suda and M.Sugiura, "Improvement of NOx Storage-Reduction Catalyst," SAE Technical paper 2002-01-0732, 2002.
  16. A. Ogata, K. Mizuno, S. Kushiyama, I. Tamori, and T. Yamamoto, "Behavior of Oxygen Species and Role of Ceramic Pellet-Surface in the Packed-Bed Plasma Reactor during Methane Destruction", Proc. of NEDO Symp. on Non-Thermal Discharge PlasmaTechnology for Air Pollution Control, pp. 33-43, 1997.
  17. Sang kwon sun, "A Study on Removal of NOx, SOx Using Non-thermal Plasma", 인천대학교 석사학위 논문, pp. 35-50, 1999.
  18. D. H. Lee, J. M. Oh, H. Y. Jeong, K.H. Lee and K. G. Yeo, "Spray Behavior and Distribution Characteristics in the Flow Field of Injector Used for HC-De NOx Catalyst System", Fall Conference Proceedings, KSAE, pp. 278-284, 2006.
  19. G. W. Nam, J. W. Park and J. H. Lee, "A Study of NOx Rduction System with NOx Storage Ctalyst," SAE07-S0039, pp. 258-263, 2007.
  20. R. W. Breault and C. McLarnon, "Reaction Kinetics for Flue Gas Treatment of NOx", NATO ASI Series, G34, Part B, pp. 239-259, 1993.
  21. S. Obama, E. Suzuki, K Okazaki, and A. Mizuno, "Removal of NOx With the partial discharge", 靜電氣學會講演論文集, 15a, C3, pp. 9-12, 1989.
  22. K. Fujii, M. Higashi, and N. Suzuki, "Simutaneous removal of NOx, COx, SOx and soot in diesel engine exhaust", NATO ASI Series, G34, Prat B, pp. 257-280, 1993.
  23. 尹談泰郎. "放電を利用した環境改善-放電發生法を中心としで, 靜電氣學會誌, 2(1), pp. 2-4, 1997.
  24. 角田和彦, 淸水孝太進郎, 柱進司, 水野璋, "パルス放電プラズマによるディーゼル排ガス中のNOx除去", 靜電氣學會講演論文集, 97, 16p B5, pp. 233-236, 1997.
  25. 日本電氣學會放電ハソドブッグ出版委員會編, "放電ハソドブッグ",電靜氣學會, 東京1973.
  26. T. Oda, T. Takahashi, H. Nakono, and S. Mas uda,"Decomposition of Fluoro Carbon Gaseous Contaminants by SurfacePlasma Chemical Processing", IEEE Trans. Ind. pp. 787-792, 1993.
  27. A. Mizuno, Y. Yamazaki, H. Ito, and H. Yoshida, "acEnergized Ferro electric Pellet Bed Gas Cleaner", IEEE Trans. Ind. App. 28(3), pp. 535-540, 1992. https://doi.org/10.1109/28.137431
  28. R. Gasparik. M. Gasparikova, S. Ihara, S. Satoh, and C.Yamabe, "Comparison of Tungsten, Copper, Stainless and Molybdenum Used as HV Electrodes in Wire-to-Plane System Designed for NOx Treatment", Proc. fo NEDO Symp. on Non-Thermal Discharge Plasma Technology for Air Pollution Control, pp. 143-154, 1997.
  29. 화학용어사전편찬회, "화학용어사전", 2006.