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R. Viskanta

Following from: Radiative transfer in combustion systems; Combustion phenomena affected by radiation; Radiative transfer in laminar flames

Leading to: Radiative transfer in combustion chambers; Radiative transfer in two-phase combustion; Thermal radiation in unwanted fires

In spite of the fact that turbulent flames are commonly encountered in practical combustion systems, the effects of radiative transfer on the flame structure have been neglected in fundamental turbulent diffusion or premixed flame modeling studies (Borghi, 1988; Bilger, 2000). Many excellent textbooks on the fundamentals of combustion are available (Williams, 1985; Glassman, 1996; Turns, 2000), but they provide little discussion, if any, on turbulence and/or radiation coupling in flames and practical combustion systems. Practical needs have motivated many studies on turbulent flame radiation, and a comprehensive account of earlier fundamental studies on sm ...


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  1. Aksit, I. M. and Moss, J. B., A Hybrid Scalar Model for Sooting Turbulent Flames, Combust. Flame, vol. 145, pp. 231-244, 2006.
  2. Baukal, Jr., C. E., Gershtein, V. Y., and Li, X. (eds.), Computational Fluid Dynamics in Industrial Combustion, CRC Press, Boca Raton, 2001.
  3. Bilger, R. W., Turbulent Jet Diffusion Flames, Prog. Energy Combust. Sci., vol. 1, pp. 87-109, 1976.
  4. Bilger, R. W., Future Progress in Turbulent Combustion Research, Prog. Energy Combust. Sci., vol. 26, pp. 367-380, 2000.
  5. Borghi, R., Turbulent Combustion Modeling, Prog. Energy Combust. Sci., vol. 14, pp. 245-292, 1988.
  6. Bresslof, N. W., Moss, J. B., and Rubini, P. A., CFD Prediction of Coupled Radiation Heat Transfer and Soot Production in Turbulent Flames, Proc. Combust. Inst., vol. 26, pp. 2379-2386, 1998.
  7. Coelho, P. J., Teerling, J., and Roekerts, D., Spectral Radiative Effects and Turbulence-Radiation Interaction in a Turbulent Jet Diffusion Flame, Combust. Flame, vol. 133, 7 pp. 5-91, 2003.
  8. Coelho, P. J., Numerical Simulation of the Interaction between Turbulence and Radiation in Reactive Flows, Prog. Energy Combust. Sci., vol. 33, pp. 311-383, 2007.
  9. Coelho, P. J., Approximate solutions of Filtered Radiative Transfer Equation in Large Eddy Simulations in of Turbulent Reactive Flows, Combust. Flame, vol. 156, pp. 1099-1110, 2009.
  10. Deshmukh, K. V., Howorth, D. C., and Modest, M. F., Direct Numerical Simulation of Turbulence-Radiation Inter-One-Dimensional Non-Premixed System, J. Quant. Spectrosc. Radiat. Transfer, vol. 109, pp. 2391-2400, 2007.
  11. El-Asrag, H., Lu, T., Law, C. K., and Menon, S., Simulation of Soot Formation in Turbulent Premixed Flames, Combust. Flame, vol. 150, pp. 108-126, 2007.
  12. Faeth, G. M., Gore, J. P., Church, S. G., and Jeng, S.-M., Radiation from Diffusion Flames, In C. L. Tien and T. C. Chawla (eds.), Annual Review of Numerical Fluid Mechanics and Heat Transfer, Hemisphere Publishing, New York, pp. 1-38, 1989.
  13. Fujimori, T., Hamano, Y., and Sato, J., Radiation Heat Loss and NOx Emission of Turbulent Jet Flames in Preheated Air up to 1230 K, Proc. Combust. Inst., vol. 28, pp. 455-461, 2000.
  14. Glassman, I., Combustion, 3rd ed., Academic Press, New York, 1996.
  15. Gonçalves dos Santos, R., Lecanu, M., Ducruix, S., Gicquel, O., Iacona, E., and Veynante, D., Coupled Large Eddy Simulations of Turbulent Combustion and Radiative Heat Transfer, Combust. Flame, vol. 152, pp. 387-400, 2008.
  16. Habibi, A., Merci, B., and Roekaerts, D., Turbulence Radiation Interaction in Reynolds-averaged Navier-Stokes Simulations of Nonprexixed Piloted Turbulent Laboratory-Scale Flames, Combust. Flame, vol. 151, pp. 303-320, 2007.
  17. Kennedy, L. M., Models of Soot Formation and Oxidation, Prog. Energy Combust. Sci., vol. 23, pp. 95-132, 1997.
  18. Kronenberg, A., Bilger, R. W., and Kent, J. H., Modeling Soot Formation in Turbulent Jet Diffusion Flames, Combust. Flame, vol. 121, pp. 24-40, 2000.
  19. Leung, K. M., Lindenstedt, R. P., and Jones, W. P., A simplified Reaction Mechanism for Soot Formation in Nonpremixed Flames, Combust. Flame, vol. 87, pp. 289-305, 1991.
  20. Li, G. and Modest, M. F., Importance of Turbulence-Radiation Interaction in Turbulent Diffusion Jet Flames, J. Heat Transfer, vol. 125, pp. 831-838, 2003.
  21. Pope, S. B., Turbulent Flows, Cambridge University Press, Cambridge, England, 2000.
  22. Tessé, L., Dupoirieux, F., and Taine, J., Monte Carlo Modeling of Radiative Transfer in a Turbulent Sooty Flame, Int. J. Heat Mass Transfer, vol. 47, pp. 555-572, 2004.
  23. Turns, S. R., An Introduction to Combustion, 2nd ed., McGraw-Hill, New York, 2000.
  24. Viskanta, R., Radiative Transfer in Combustion Systems: Fundamental and Applications, Begell House, New York and Reddin, CT, 2005.
  25. Williams, F. A., Combustion Theory: The Fundamental Theory of Chemically Reacting Flow Systems, 2nd ed., Benjamin/Cummings Publishing, Menlo Park, CA, 1985.
  26. Wu, Y., Howarth, D. C., Modest, M. F., and Cuenot, B., Direct Numerical Simulation of Turbulence/Radiation Interaction in Premixed Combustion Systems. Proc. Combust. Inst., vol. 30, pp. 639-646, 2004.
  27. Young, K. J. and Moss, J. B., Modeling Sooting Turbulent Jet Flames Using an Extended Flamelet Technique, Combust. Sci. Technol., vol. 105, pp. 33-53, 1995.
  28. Zheng, Y., Barlow, R. S., and Gore, J. P., Measurements and Evaluations of Spectral Radiation Intensities of Turbulent Non-Premixed and Partially Premixed Flames, J. Heat Transfer, vol. 125, pp. 1065-1073, 2003.
  29. Zimberg, J. J., Frankel, S. H., Gore, J. P., and Sivanathu, Y. R., A Study of Coupled Turbulent Mixing, Soot Chemistry and Radiation Effects Using the Linear Eddy Model, Combust. Sci. Technol, vol. 113, pp. 454-469, 1998.
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