DOI QR코드

DOI QR Code

RESEARCH PAPERS : COMBUSTION CONTROL OF SELF-EXCITED COMBUSTION OSCILLATION AND NOX REDUCTION BY FORCED PULSATING MIXTURE SUPPLY

  • Published : 2004.12.31

Abstract

Keywords

References

  1. Putnum, A. A., 'Combustion-Driven Oscillations in Industry,' Elsevier, New York (1971)
  2. Heitor, M. V., Taylor, A. M. K. P., and Whitelaw, J. H., 'Influence of confinement on combustion instabilities of premixed flames stabilized on axisymmetric baffles,' Combust. Flame, 57, pp. 109-121 (1984)
  3. Tam, C. K. W., Chen, P., and Seiner, J. M., 'Relationship between instability waves and noise of high speed jets,' Journal of AIAA, 30(7), pp. 1747-1752 (1992)
  4. Keller, J. J., 'Thermoacoustic oscillations in combustion chambers of gas turbine,' Journal of AIAA, 33(12), pp. 2280-2287 (1995)
  5. Hobson, D. E., Fackrell, J. E., and Hewitt, G., 'Combustion instabilities in industrial gas turbine-measurements on operating plant and thermoacoustic modeling,' Transactions of the ASME, 122, pp. 420-428 (2000)
  6. Lolbe, R., Kailasanath, K., Young, T., Boris, J., and Landsberg, A., 'Numerical simulations of flow modification of supersonic rectangular jets,' Journal of AIAA, 34(5), pp. 902-908 (1996)
  7. Katsuki, M. and Whitelaw, J. H., 'The influence of duct geometry on unsteady premixed flames,' Combust. Flame, 63, pp. 83-94 (1986)
  8. Steele, R. C., Cowell, L. H., Cannon, S. M., and Smith, C. E., 'Passive control of combustion instability in lean premixed combustors,' Transactions of the ASME, 122, pp. 412-419 (2000)
  9. Schadow, K. C. and Gutmark, E., 'Combustion instabilities related to vortex shedding in dump combustors and their passive control,' Progressw in Energy and Combustion Science, 18, pp. 117-132 (1992)
  10. McManus, K. R., Poinsot, T., and Candel, S. M., 'A review of active control of combustion instabilities,' Prog. Energy Combust. Sci., 19, pp. 1-29 (1993)
  11. Poinsot, T. J., Bourienne, F., Candel, S., Esposito, E., and Lang, W., 'Suppression of combustion instabilities by active control,' Journal of Propulsion and Power, 5, pp. 14-20 (1989)
  12. Mohanraj, R., Neumeier, Y., and Zinn, B. T, 'Combustor model for simulation for combustion instabilities and their active Control,' Journal of Propulsion and Power, 16, No. 3, pp. 485-491 (2000)
  13. Chae, J. O., Chun, Y. N., and Kim, K. Y., 'Combined removal of $SO_2$ and nox from simulated flue gas using pulse streamer corona,' Environmental Engineering Research, 5, No.3, pp.127-134 (2000)
  14. Keller, J. O., Bramlette, T. T., Dec, J. E., and Westbrook, C. K., 'Pulse Combustion : The importance of characteristics times,' Combust. and Flame, 75, pp. 33-44 (1989)
  15. Dec, J. E. and Keller, J. O., 'Pulse combustor tail-pipe heat-transfer dependence on frequency, amplitude and mean flow rate,' Combust. Flame, 77, pp. 359-374 (1989)
  16. Miller, N., Powell, E. A., Chen, F., and Zinn, B. T., 'The use of air staging to reduce the NOx emissions from coal burning rijke pulse combustors,' Combust. Sci. Technol., 94, pp. 411-426 (1993)
  17. Poppe, C., Sivasegaram, S., and Whitelaw, J. H., 'Control of NOx emissions in confined flames by oscillation,' Combust. Flame, 113, pp. 13-26 (1998)
  18. Gemmen, R. S., Keller, J. O., and Arpaci, V. S., 'Heat/Mass transfer from a cylinder in the strongly oscillating flow of a pulse combustor tailpipe,' Combust. Sci. Technol., 94, pp. 103-130 (1993)
  19. Bai, T, Cheng, X. C., Daniel, B, R., Jagoda, J. I., and Zinn, B. T., 'Performance of a gas burning rijke pulse combustor with tangential reactants injection,' Combust. Sci. Technol., 94, pp. 1-10 (1993)
  20. Neumeier, Y., Zinn, B. T, and Jagoda, J. I., 'Frequency domain analysis of the performance of a valved helmholtz pulse combustor,' Combust. Sci. Technol., 94, pp. 295-316 (1994)
  21. Ichiro, H. and Kazuo, S., 'Development of small twin-valveless pulse combustors effect of injection system,' Combust. Sci. Technol., 94, pp. 43-55 (1993)
  22. Nam, C. M., 'NOx reduction by sncr and its reaction mechanism under oxidizing diesel flue gas conditions,' Environmental Engineering Research, 8(1), pp. 31-40 (2003) https://doi.org/10.4491/eer.2003.8.1.031
  23. Nam, C. M., Jang, K. R., and Kang, Y., 'Industrial plasma experiments for simultaneous removal of $SO_2$/NOx from a coal-fired power plant,' Environmental Engineering Research, 5(4), pp. 199-206 (2000)
  24. Englund, D. R. and Richards, W. B., 'The infinite line probe,' Proceedings of the 30th International Instrumentation Symposium, Instrument Society of America, pp. 115-124 (1984)
  25. Edwards, N. R., Mcintosh, A. C., and Brindley, J., 'The development of pressure induced instabilities in premixed flames,' Combust. Sci. Technol., 99, pp. 179-199 (1994)
  26. Segawa, Y., 'A method of predicting the pressure amplitude of the combustion oscillation,' JSME Int. Journal, 30, pp. 1443-1449 (1987)
  27. Mehta, G. K., Ramachandra, M. K., and Strahle, W. C., 'Correlations between light emission, acoustic emission, and ion density in premixed turbulent flames,' The Eighteenth (International). Symposium on Combustion, The Combustion Institute, Pittsburgh, pp. 1051-1059 (1981)
  28. Keller, J. O. and Saito, K., 'Measurement of the combustion flow in a pulse combustor,' Combust. and Technol., 53, pp. 137-163 (1987)