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초소형 촉매 이상 분해 반응기 해석 모델 개발

Development of Analysis Model for Down Scaled Two Phase Catalytic Reactor

  • 이대훈 (한국과학기술원 정보전자연구소) ;
  • 권세진 (한국과학기술원 항공우주공학)
  • 발행 : 2004.01.01

초록

Analysis model for the two-phase catalytic reactor is presented. With the progress in development of micro thermofluidic devices, needs fur understanding of the phenomena in two phase reaction in cm scale has been arisen. To investigate thermal and reactive performance of down scaled two phase reactor simple analysis model that is a kind of lumped flow model is proposed. Analysis model presented is based on the experiment on mm scale model reactor. Target experiment is catalytic decomposition of 70wt% hydrogen peroxide with existence of perovskite L $a_{0.8}$S $r_{0.2}$Co $O_3$ catalyst. It is composed of balance equations of mass and energy. Each phase is considered to be a species fur the simplicity. Axial diffusion and transversal distribution of properties are neglected. Two phase catalytic reaction is modeled as successive gasification of liquid lump around catalyst and reaction in gas phase. Heat transfer is modeled by model function ofNu number. Modeled Nu is expressed as Nu=N $u_{0}$ (1+ $a_1$( $a_2$ $T^{-}$ $a_3$)exp( $a_4$ $T^{-1}$)exp( $a_{5}$ z). Transfer coefficients are determined by the comparison of experimental results. With the model, heat transfer characteristics are investigated. Also by the mass transfer coefficient, characteristics in mass transfer is investigated. With the result basic understanding on design and analysis of mm scale two-phase reactive device is obtained. Also it can be further applied to micro scale reactive device fabricated by micromachining.ing..

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참고문헌

  1. Dae Hoon Lee, Dae Eun Park, Joon Bo Yoon, Sejin Kwon and Euisik Yoon, 2002, 'Fabrication and Test of a MEMS Combustor and Reciprocating Device,' Journal of Micromechanics and Microengineering, Vol. 12, No.1, pp. 26-34 https://doi.org/10.1088/0960-1317/12/1/305
  2. Srinivasan, R., Firebaugh, S. L., Hsing, I. M., Ryley, J., Harold, M. P., Jensen, K. F. and Schmidt, M. A., 1997, 'Chemical Performance and High Temperature Characterization of Micromachined Chemical Reactors,' Transducers 97. International Conference on Solid State Sensors and Actuators lC3.01 https://doi.org/10.1109/SENSOR.1997.613608
  3. Sukhan Lee and Yonggyo Seo, 2002, 'The Status of Micro Fuel Cell Research in Korea,' Proceeding of Power MEMS 2002, International Workshop on Power MEMS, Tsukuba, Japan, pp. 10-13
  4. Richards, C. D., Bahr, D. F. and Richards, R. F., 2002, 'A Micro Heat Engine for MEMS Power,' ASME IMECE 2002-39385
  5. Jenifer Brakel, 2001, 'Microreactors : An Invention of the Future,' Chemical Reaction Engineering Weekly News, April 9, Univ. Michigan
  6. http://dcwww.epfl.ch/ico/ICP-3/ICP3-Research.html
  7. Heibel, A. K., Heiszwolf, J. J., Kaptejin, F. and Miolijn, J. A., 2001, 'Influence of Channel Geometry on Hydrodynamics and Mass Transfer in the Monolith Film Flow Reactor,' Catalysis Today 69, pp. 153-163 https://doi.org/10.1016/S0920-5861(01)00391-1
  8. Cimino, S., Benedetto, A. D., Pirone, R. and Russo, G., 2001, 'Transient Behaviour of Perovskite-based Monolithic Reactors in the Catalytic Combustion of Methane,' Catalysis Today, 69, pp. 95-103 https://doi.org/10.1016/S0920-5861(01)00359-5
  9. Taguchi, H., Yoshioka H. and Nagao, M., 1994, 'Synthesis of Perovskite-type LaCoO3 Uing Poly(acrylic acid),' J. Material science letters 13, pp. 891-892 https://doi.org/10.1007/BF00273240
  10. Groppi, G, Belloli, E., Tronconi, E. and Forzatti, P., 1995, 'A Comparison of Lumped and Distributed Models of Monolith Catalytic Combustors,' Chemical Engineering Science, Vol. 50, No. 17, pp. 2705-2715 https://doi.org/10.1016/0009-2509(95)00099-Q
  11. Lee, D. H., 2003, Measurement and Analysis of Thermochemical Process for Micro Power Generation, Ph.D Dissertion, KAIST
  12. Grigull, U. and Tratz, H., 1965, 'Thermischeer Einlauf in Ausgebildeter Laminarer Rohrstromung, Int. J. Heat Mass Transfer 8, pp. 669-678 https://doi.org/10.1016/0017-9310(65)90016-5

피인용 문헌

  1. Performance evaluation of a vane motor driven by liquefied hydrogen peroxide vol.14, pp.7, 2013, https://doi.org/10.1007/s12541-013-0158-z