Dynamic Cycling State of Nonadiabatic Catalytic Combustion of Propylene

https://doi.org/10.22146/ajche.50149

Suryo Purwono(1*)

(1) Chemical Engineering Department Gadjah Mada University JI Gralika No. 2, Yogyakarta, INDONESIA
(*) Corresponding Author

Abstract


An experimental study of nonadiabatic fixed-bed reactor for controlling propylene gas was made under flow reversal operation. Temperature measurements were made within the catalyst and packing beds. The influence of the operating parameters on the shape of temperature profiles, conversion, and heat removal were studied. The experiments showed that the maximum measured reactor temperature and heat removal were rather insensitive to changes in cycle duration and sensitive to feed flow rate and reactant concentration. The simulation results for the variation of concentration, flow rate, and cycle time showed the experimentally observed behavior Further simulations showed that runaway can occur when concentration was high.

Keywords


Catalytic combustion, flow reversal, nonadiabatic fixed bed reactor, propylene, and runaway.

Full Text:

PDF


References

  1. Bhatia, 361. S. K (1991)., Chern. Eng. Sci., 46, 1,361.
  2. Blanks,R. E, Wittrig,T. 5., and Peterson, D. A (1990). Chern.Eng. Sci., 45, 8, 2407.
  3. Boreskov,G. K, and Matros,Y S. (1983). Catal Rev. Sci. Eng.,25, 551. Boreskov,G. K, Matros,Y 5., Kiselev,o. v., and Buminovich,G. A (1977). Dok/. Akad Nauk SSSR, 237, 1, 160.
  4. Boreskov,G. K, Matros,Y 5., and Ivanov,A G. (1986). "Carrying out of a heterogeneous catalyticprocess under non-steady-state condition," Dokl. Akad Nauk SSSR, 288, 2, 429, 1986.
  5. Eigenberger,G., and Nieken,U. (1988). Chern. Eng. Sci.,43, 8, 2109.
  6. Froment, G. F. (1990). In Unsteady-state processes in catalysis, Matros, Y 5., ed., VSp, Utrecht.
  7. Gawdzik, A, and Rakowski, L. (1988). Chern. Eng. Sci., 43, 11, 3023
  8. Gawdzik, A and Rakowski, L. (1989). Computers Chern. Eng., 13, 10, 1165.
  9. Gupta, V. K., and Bhatia, S. K. (1991). Computers Chern. Eng., 15, 4, 229.
  10. Matros, Yu. Sh. (1985). Unsteady processes in catalytic reactor, Elsevier, New York.
  11. Matros, Yu.Sh. (1989). Cata/yticprocessesunder unsteady-state conditions, Elsevier, New York.
  12. Matros, Yu. Sh. (1990). Unsteady-state processes in catalysis, VSp, Utrecht.
  13. Purwono, S. (2002). "CO oxidation over metal oxide catalyst supported by Indonesian Natural Zeolite," ASEAN Journal of Chemical Engineering, 2, 1,38.
  14. Purwono, 5., Hudgins, R R, and Silveston,(1992). "Unsteady-state catalytic combustion," Proc. 12th Can. Sympos. Catal., Banff, Alberta, Canada.
  15. Purwono, 5., Budman, H., Hudgins, R R, Silveston, P.L., and Matros, Y S. (1994). "Runaway in packed bed reactors operating with periodic flow reversal," Chern. Eng. Sci, 49, 24 B, 5473.
  16. Purwono, 5., Murachman, B., Triono, Hardjono, Budhijanto, and Witono, H. (1997). "Development of platinum and palladium catalyst for oxidizing waste gases," Forum 7eknik, 21, 2, 229.
  17. Rehacek, J., Kubicek, M., and Marek, M. (1992). Chern. Eng. Sci., 47, 9,2897.



DOI: https://doi.org/10.22146/ajche.50149

Article Metrics

Abstract views : 1481 | views : 1153

Refbacks

  • There are currently no refbacks.


ASEAN Journal of Chemical Engineering  (print ISSN 1655-4418; online ISSN 2655-5409) is published by Chemical Engineering Department, Faculty of Engineering, Universitas Gadjah Mada.