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Literatur
Bender R. (2003) Modellierung der Kopplung von chemischer Reaktion und turbulenter Mischung bei turbulenten Vormischflammen, Diss. Universität Stuttgart
Borghi R. (1984) In: Brunco C., Casci C. (Ed) Recent advances in aeronautical science. Pergamon, London
Borghi R. B. (1988) Turbulent Combustion Modeling, Progress in Energy and Combustion Science, 14:245–292
Borghi R. (1990) Turbulent Premixed Combustion: Further Discussions on the Scales of Fluctuations, Combustion and Flame, 80:304–312
Borghi R., Dutoya D. (1979) On the Scales of the Fluctuations in Turbulent Combustion, In Seventh Symp. (Int.) on Combustion, Seiten 235–244, The Combustion Institute Pittsburgh PA
Borghi R. B., Argueyrolles B., Gauffie S., Souhaite P. (1986) Application of a Presumed PDF Model of Turbulent Combustion to Reciprocating Engines, In: 21st Symp. (Int) on Combustion, S 1591–1599, The Combustion Institute Pittsburgh PA
Bray K. N. C. (1980) Turbulent Flows with Premixed Reactants, In Libby P. A. und Williams F. A.: Turbulent Reacting Flows, Bd. 44 Topics in Applied Physics, S 115–183, Springer Verlag Berlin Heidelberg New York
Bray K. N. C., Libby P. A. (1976) Interaction effects in turbulent premixed flames. Phys Fluids 19:1687
Bray K. N. C., Moss J. B. (1977a) A unified statistical model of the premixed turbulent flame. Acta Astronautica 4:291–319
Bray K. N. C., Moss J. B. (1977b) A closure model for the turbulent premixed flame with sequential Chemistry, Combustion and Flame 30:125–131
Bray K. N. C., Libby P. (1986) Passage times and Flamelet Crossing Frequencies in Premixed Turbulent Combustion, Combustion Science and Technology, 47:253–274
Bray K. N. C., Moss J. B., Champion M. (1978) The turbulent combustion of propane-air mixture, Acta Astronautica, 5:1063–1077
Bray K. N. C., Libby A., Masua G., Moss J. B. (1981) Turbulence Production in Premixed Turbulent Flames, Combustion Science and Technology, 25:127–140
Bray K. N. C., Libby A., Masua G., Moss J. B. (1984) Scalar Length Scale Variations in Premixed Turbulent Flames, in: 20th Symp. (Int) on Combustion, S 421–427, The Combustion Institute Pittsburgh PA
Bray K. N. C., Champion M., Dave N., Libby A. (1986) On the Thermochemistry of Premixed Turbulent Combustion in Variable Enthalpie Systems,, Combustion Science and Technology, 46:31–43
Candel S., Poinsot T. (1990) Flame Stretch and the Balance equation for the Flame Area, Combustion Science and Technology, 70:1–15
Candel S., Veynante D., Lacas F., Darabiha N. (1994) Current progress and future trends in turbulent combustion. Combust Sci Technol 98:245
Cant R. S., Pope S. B., Bray K. N. C. (1990) Modelling of Flamelet Surface — to-Volume Ratio in Turbulent Premixed Combustion, In 23rd Symp. (Int.) on Combustion, S. 1657–1663, The Combustion Institute Pittsburgh PA
Darabiha N., Giovangigli V., Trouvé A., Candel S. M., Esposito E. (1989) Coherent Flame Description of Turbulent Premixed Duct Flames, In Borghi R. und Murthy S. N. B. Turbulent Reacting Flows, Bd. 40 of Lecture Notes in Engineering, S. 591–637, Springer Verlag Berlin Heidelberg New York
Duclos J. M., Veynante D., Poinsot T. (1993) A Comparision of Flamelet Models for Premixed Turbulent Combustion, Combustion and Flame, 95:101–117
Gouldin F. C., Bray K. N. C., Chen Chen J. Y. (1989) Chemical Closure Model of Fractal Flamelets, Combustion and Flames, 77:241–159
Gouldin F. C., Miles P. C. (1995) Chemical Closure and Burning Rates in Premixed Turbulent Flames, Combustion and Flames, 100:202ff
Hoffmann A. B. (2004) Modellierung turbulenter Vormischverbrennung, Diss. Universität Karlsruhe (TH) 2004
Jones W. P., Musonge P. (1988) Closure of Reynolds Stress and Scalar Flux Equations, Physics of Fluids 31(12):3589–3604
Kersten A. R., Ashurst W. T., Williams F. A. (1988) Field Equation for interface Propagation in an Unsteady Homogeneous Flow Field, Phys. Review A, 37(7):2728–2731
Lacas F., Veynante D., Candel S. M. (1989) A numerical study of propagating premixed turbulent flames, In: Dervieux A. und Larrouturou B. Numerical Combustion, Band 351 der Reihe Lecture Notes in Physics, Springer Verlag Berlin Heidelberg New York
Lipatnikov A. N., Chomiak J. (2001) Turbulent Flame Speed and Thickness: Phenomenology, Evaluation and Application in Multi-Dimensional Simulations, Progress in Energy and Combustion Science, 28(1):1–74
Magnussen, B. F.; Hjertager, B. H.: (1976) On Mathematical Modelling of Turbulent Combustion with Special Emphasis on Soot Formation and Combustion, 16th Int. Symp. Combustion
Maistret E., Nasser D., Poinsot T., Veynante D., Lacas F., Candel S. M., Esposito E. (1989) Recent Developments in the Coherent Flamelet Description of Turbulent Combustion, In: Dervieux A. und Larrouturou B. Numerical Combustion, Band 351 der Reihe Lecture Notes in Physics, Springer Verlag Berlin Heidelberg New York
Mantel T., Borghi R. (1994) A New model of Premixed wrinkled Flame Propagation Based on Scalar Dissipation Equation, Combustion and Flame 96:443–457
Marble F. E., Broadwell J. E. (1977) The Coherent Flame Model for Turbulent Chemical Reactions, Project SQUID Techn. Report TRW-9-PU, Poroject SQUID Headquarters Chaffee Hall, Purdue University
Maas U., Thevenin D. (1998) Correlation analysis of direct numerical simulation data of turbulent non-premixed flames, In 27th Symp. (Int.) on Combustion, The combustion Institut Pittsburg PA
Peters N. (1987) Laminar flamelet concepts in turbulent combustion. Proc Comb Inst 21:1231
Peters N. (1992) A Spectral Closure or Premixed Turbulent Combustion in the Flamelet Regime, Journ. Of Fluid Mechanics, 242:611–629
Peters N. (1999) The Turbulent Burning Velocity for Large Scale and Small Scale Turbulence, Journ. of Fluid Mechanics 384:107–132
Peters N. (2000) Turbulent Combustion, Cambridge University Press, London
Poinsot T., Veynante D. (2001) Theoretical and Numerical Combustion, R. T. Edwards Inc. Philadelphia, PA
Poinsot T., Veynante D., Candel S. (1991) Diagrams of auto-ignition over a large temperature Range. Proc Comb Inst 22.893
Pope S. B., Cheng W. K. (1988) The stochastic Flamelet Model of Turbulent Premixed Combustion, In 22nd Symp. (Int.) on Combustion, S. 781–789, The Combustion Institute Pittsburgh PA
Spalding D. B. (1971) Mixing and Cemical Reaction in Steady Confined Turbulent Flames, In 13th Symp. (Int.) on Combustion, S. 649–657, The Combustion Institute Pittsburgh PA
Spalding D. B. (1976) Development of the Eddy-Break-Up Model of Turbulent Combustion, In 16th Symp. (Int.) on Combustion, S. 1657–1663, The Combustion Institute Pittsburgh PA
Tennekes H., Lumly J. L. (1972) A first course in Turbulence, The MIT Press Cambridge Massachussets
Trouvé A., Poinsot T. (1994) The Evolution Equation for the Flame Surface Density in Turbulent Combustion, Journ. of Fluid Mechanics, 287:1–31
Yeung P. K., Girimaji S. S., Pope S. B. (1990) Straining and Scalar Dissipation on Material Surfaces in Turbulence: Implications on Flamelets, Combustion and Flames 79:340–365
Vervisch L., Bidaux E., Bray K. N. C., Kollmann W. (1995) Surface density function in premixed turbulent combustion modeling, simularities between probability density function and flame surface aproaches, Physics of Fluids, 7:2496–2503
Veynante D., Lacas F., Maistret E., Candel S. M. (1991) Coherent Flame Model for Non-Uniformly Premixed Turbulent Flames, In: Turbulent Shear Flows 7, S 367–378 Springer Verlag Berlin Heidelberg New York
Wallestein J., Lipatnikov A. N., Nisbet J. (1998) Turbulent Flame Speed Closure Model: Further Development and Implementation for 3-D Simulation of Combustion in SI Engine, Society of Automotive Engneers, Inc. 98FL-404
Weller H. G. (1993) The Development of a New Flame Area Combustion Model Using Conditional Averaging, Thermo-Fluids Section Report TF/9307, Dep. Of Mech. Eng., Imperial College of Science Technology and Medicine
Williams F. A. (1988) Combustion Theory, Addison-Wesley Publishing Company
Zeman O., Lumly J. L. (1976) Modeling Bouyancy Driven Mixed Layers, J-JATS 33:1974–1988
Zimont V., Polifke W., Bettelini M., Weisenstein W. (1998) An efficient Computational Model for Premixed Turbulent Combustion at High Reynolds Numbers Based on a Turbulent Flame Speed Closure (ASME 97-GT-395), Journ. of Engineering for Gas Turbine and Power, 120:526–532
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(2006). Schließungsmodelle turbulenter Vormischflammen. In: Technische Verbrennung. Springer, Berlin, Heidelberg . https://doi.org/10.1007/3-540-34334-2_13
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