Evaluation of Modified Two-Equation Turbulence Model for Nonpremixed Jet Diffusion Flame

• Autorzy: Zakrzewski, W.
• Języki publikacji: EN
• Czasopismo: Archivum Combustionis
• Rocznik: 2012
• Tom: Vol. 32 nr 3-4
• Strony: 93--100
• Opis fizyczny: Bibliogr. 14 poz., rys.

Twórcy

autor

Zakrzewski, W.

• Department of Energy Conversion, Institute of Fluid Flow Machinery, Polish Academy of Sciences, Fiszera 14,80-231 Gdańsk, Poland,

Bibliografia

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• 2. Pope, S.B., An Explanation of the Turbulent Round-Jet/Plane-Jet Anomaly, AIAA Journal, Vol. 16, No. 3, 1978, pp. 279-281.
• 3. McGuirk, J.J. and Rodi, W., The Calculation of Three-Dimensional Turbulent Free Jets, 1st Symp. On Turbulent Shear flows, editors F. Durst, B.E. Launder, F.W. Schmidt and J.H. Whitelaw, 1979, 71-83.
• 4. Morse, A.P., Axisymmetric Turbulent Shear Flows with and without Swirl, Ph.D. Thesis, London University, 1977.
• 5. Launder, B.E., Morse, A.P., Rodi, W., and Spalding, D.B., The Prediction of Free Shear Flows – A comparison of Six Turbulence Models, NASA SP-311, 1972.
• 6. Bergmann, V., Meier, W., Wolff, D., and Stricker, W., Appl. Phys. B 66:489–502 1998.
• 7. B. F. Magnussen. On the Structure of Turbulence and a Generalized Eddy Dissipation Concept for Chemical Reaction in Turbulent Flow. Nineteeth AIAA Meeting, St. Louis1981.
• 8. I. R. Gran and B. F. Magnussen.,A numerical study of a bluff-body stabilized diffusion flame. part 2. influence of combustion modeling and finite-rate chemistry. Combustion Science and Technology. 119. 1996
• 9. S. B. Pope. Computationally efficient implementation of combustion chemistry using in-situ adaptive tabulation. Combustion Theory and Modeling. 1. 41–63. 1997.
• 10. Smooke, M.D. and V. Giovangigli, Formulation of the Premixed and Nonpremixed Test Problems, In Reduced Chemical Mechanisms and Asymptotic Approximations for Methane-Air Flames, M. D. Smooke, Ed., Springer-Verlag, New York, 384, pp 1-28, 1991.
• 11. Schneider, Ch., Dreizler, A., Janicka, J., Flow Field Measurements of Stable and Locally Extinguishing Hydrocarbon-Fuelled Jet Flames, Combust. Flame 135:185-190 2003
• 12. W. Zakrzewski, Wpływ dyssypacji energii kinetycznej turbulencji na rozkład prędkości w strugach, Ed. J. Szantyr, Współczesne Technologie i Konwersja Energii, 125-137,Gdańsk 2012.
• 13. Robert W. Schefer, Data Base for a Turbulent, Non-premixed, Non-reacting Propane-Jet Flow, http://www.sandia.gov/TNF/DataArch/ProJet.html
• 14. W. Zakrzewski, Modelowanie procesu turbulentno-dyfuzyjnego spalania, ed. E. Przybylski, Współczesne Technologie i Konwersja Energii, 348-353,Gdańsk 2010.