Corrsin S., “Turbulent Dissipation Fluctuations”. Phys.Fluids 5, 1301,1962

(1)

Bibliografia

1 “Ansys CFX versions 5.7, Users Manual” Ansys Inc., 2004.

Corrsin S., “Turbulent Dissipation Fluctuations”. Phys.Fluids 5, 1301,1962

Beer J. M, Foster P. J., Siddal R. G, “Calculation methods of radiative heat transfer”, HTFS Design Report 22, AEA Technology, (1971)

Berg S., “Combustion Modelling” (2003)

Borghi R., “Réactions Chimiques en Milieu Turbulent”, Thèse de Doctorat, Université Pierre et Marie Curie, Paris, (1978)

Coelho P. J., Peters N., “Numerical Simulation of a Mild Combustion Burner”, Combustion and Flame, 124, 503-518, (2001)

Chomiak J., “Combustion: A Study in Theory, Fact and Application”, Energy and Engineering Series, Abacus Press, (1989)

Christo F. C., Dally B. B., “Modelling Turbulent Reacting Jets Issuing into a Hot and Diluted Coflow”, Combustion and Flame, In Press, (2005)

Dally B.B., Fletcher D.F., Masri A.R., “Modelling of Turbulent Flames Stabilised on a Bluff Body”, Combustion Theory and Modelling, 2, 193-219, (1998a)

Dally B.B., Masri A.R., Barlow R.S., Fiechtner G.J., “Instantaneous and Mean Compositional Structure of Bluff-Body Stabilised Nonpremixed Flames”, Combustion and Flame, 114, 119-148, (1998b)

Dally B.B., Riesmeier E., Peters N., “Effect of fuel mixture on moderate and intense low oxygen dilution combustion”, Combustion and Flame, 137, 418-431, (2004)

Giacomazzi E., Favini B., Bruno C., Picchia F.R., Arcidiacono N., “Turbulent Flames Dynamics and their numerical simulation” ECCOMAS Conference on Computational Combustion, Jyvaskyla, (2004)

Hottel H.C., Sarofim, A.F., “Radiative Transfer”, McGraw-Hill, New York, (1967)

Jones W. P., Lindstedt R. P., "Global Reaction Schemes for Hydrocarbon Combustion,"

Combustion and Flame, 73, 233-249, (1988)

Kuo K. K., “Principles of Combustion”, John Wiley & Sons, New York, (1986)

Launder B. E., "The Prediction of Laminarization with a Two-Equation Model of Turbulence”, Journal of Heat and Mass Transfer, 15, 301-314, (1972)

Launder B. E., Morse A. P., Rodi W., Spalding D. B., “The Prediction of Free Shear Flows-A

Comparison of Six Turbulence Models”, NASA SP-311, (1972)

(2)

Bibliografia

2 Lockwood F.C., Shah N.G., “A New Radiation Solution Method for Incorporation in General

Combustion Prediction Procedures”, 18th Symposium (International) on Combustion, The Combustion Institute, 1405-1414, (1981)

Magnussen B. F., “The Eddy DissipationConcept – A Bridge Between Science and Tecnology”, ECCOMAS Conference on Computational Combustion, Lisbona, (2005)

Magnussen B. F., “On the structure of turbulence and a generalized eddy dissipation concept for chemical reaction in turbulent flow”, 19 ^Th American Institute of Aeronautics and Astronautics Aerospace Science meeting (1981)

Magnussen B. F., “Modelling of NOx and Soot formation by the Eddy Dissipatio Concept”

CIMAC Conference Tianjin (1989)

Gran,I. R. And Magnussen, B.F. (1996b) A numerical study of a bluff-body stabilized diffusion flame . Part 2. Influence of combustion modeling and finite-rate chemistry. Comb. Sci.

Technol.,119, 191-217.

Gran,I. R. And Magnussen, B.F. (1996b) A numerical study of a bluff-body stabilized diffusion flame . Part 1. Influence of combustion modeling and finite-rate chemistry. Comb. Sci.

Technol.,119, 191-217.

Ivar,S Ertesvag And Bjorn F, Magnussen, B.F. The eddy Dissipation Turbulence Energy Cascade Model. Comb. Sci. Technol.(1999)

Magnussen B. F., Hjertager B. H., “On Mathematical Modelling of Turbulent Combustion with Special Emphasis on Soot Formation and Combustion”, 16th Symposium (International) on Combustion, The Combustion Institute, 719-729, (1976)

Mastorakos E., Taylor A. M., Whitelaw J. H., “Turbulent Counterflow Flames with Reactants Diluted by Hot Products”, Joint Meeting of the British and German Sections, The Combustion Institute, Cambridge, (1993)

Mauri M., “Fenomeni di Trasporto”, Dispense del Corso di Principi di Ingegneria Chimica, Università di Pisa, A.A. 2003-2004;

Miller J. A., Bowman C. T., “Mechanism and Modelling of Nitrogen Chemistry in Combustion”, Progress in Energy and Combustion Science, 15, 287-338, (1989)

Modest M. F., “Heat Transfer Handbook”, Chapter VIII, Radiative Heat Transfer, John Wiley &

Sons, New York, (2003)

Morse A. P., “Axisymmetric Turbulent Shear Flows with and without swirl”, PhD Thesis,

London University, (1977)

(3)

Bibliografia

3 Özdemir B. I., Peters N., “Characteristics of the Reactions Zone in a Combustor Operating at

Mild Combustion”, Experiments in Fluid, 30, 683-695, (2001)

Parente A., “Combustione Flameless di Metano e Idrogeno:Impiego della Fluidodinamica computazionale per lo sviluppo di bruciatori industriali a basso impatto ambientale”, Tesi di Laurea Specialistica, Università di Pisa, (A.A. 2003-2004)

Peters N., “Fifteen Lectures on Laminar and Turbulent Combustion”, Ercoftac Summer School, Aachen, (1992);

Peters N., “Turbulent Combustion”, Cambridge monographs on mechanism, Cambridge University Press, (2000)

Plessing T, Peters N., Wünning J. G., “Laser Optical Investigation of Highly Preheated

Combustion with Strong Exhaust Gas Recirculation”, 27th Symposium (International) on Combustion, The Combustion Institute, 3197-3204, (1998)

Poinsot T., Veynante D., “Theoretical and Numerical Combustion”, Edwards, Philadelphia, (2001)

Pope S. B., “An explanation of the Turbulent Round-Jet/Plane-Jet Anomaly”, AIAA Journal, 16, 279-281, (1978)

Prandtl L., “Investigation on turbulent flow”, Zeitcchrift fur angewandte Mathematik und Mechanik, 5, 136-139, (1925)

“Proceedings of the 5th International Workshop on Measurement and Computation of Turbulent Non-Premixed Flames”, (2000)

Rhie C.M., Chow W.L., “A numerical Study of the Turbulent Flow Past an Isolated Airfoil with Trailing Edge Separation”, AIAA Paper 82-0998, (1982)

Sarkar S., Erlebacher B., Hussaini M., Kreiss H., “The Analysis and Modelling of Dilational Terms in Compressible Turbulence”, Journal of Fluid Mechanics, 227, 473-493, (1991)

Smagorinsky J., "General Circulation Experiments with the Primitive Equations", Monthly Weather Review, 91, 99-164, (1963)

Smith T. F., Shen Z. F., Friedman J. N.. “Evaluation of Coefficients for the Weighted Sum of Gray Gases Model”. Journal of Heat Transfer, 104, 602-608, (1982)

Spalart P.R., Jou W.H., Strelets M., Allmaras S.R., “Comments on the Feasibility of LES for Wings, and on a Hybrid RANS/LES Approach”, 1st AFOSR International Conference on DNS/LES, (1997)

Spalding D.B., ”Mixing and Chemical Reaction in Steady Confined Turbulent Flames”, 13

^th

Symposium (International) on Combustion, The Combustion Institute, 649–657, (1971)

(4)

Bibliografia

4 Telger K., Roth W., “Betriebserfahrungen beim Einsatz von Brennern mit flammloser

Oxidation”, Gas Wärme International, 44, 332-337, (1995)

Tennekes H. ,“Simple model for the Small-Scale Structure of Turbulence “ Pennsylvania State University (1967)

Warnatz J., Mass U., Dibble R. W, “Combustion”, Springer Verlag, 219-221, (1996) Westbrook C., Dryer F., “Chemical Kinetic Modelling of Hydrocarbon Combustion”, Progress in Energy and Combustion Science, 10, 1-57, (1984)

Westbrook C. K., Dryer F. L., “Simplified Reaction Mechanism for the Oxidation of

Hydrocarbon Fuels in Flames”, Combustion Science and Technology, 27, 31-43, (1981)

Westenberg A. A., "Kinetics of NO and CO in Lean, Preximed Hydrocarbon-Air Flames“, Combustion Science and Technology, 4, 59, (1971)

Yakhot V., Orszag, S. A.. “Renormalization Group Analysis of Turbulence”, Journal of Scientific Computing, 1, 1-51, (1986)

Zabetakis M. G., “Flammability Characteristics of Combustible Gases and Vapours”, U.S.

Department of the Interior, Bureau of Mines, Bulletin 627, (1965)

Corrsin S., “Turbulent Dissipation Fluctuations”. Phys.Fluids 5, 1301,1962

Bibliografia

1

“Ansys CFX versions 5.7, Users Manual” Ansys Inc., 2004.

Corrsin S., “Turbulent Dissipation Fluctuations”. Phys.Fluids 5, 1301,1962

Beer J. M, Foster P. J., Siddal R. G, “Calculation methods of radiative heat transfer”, HTFS Design Report 22, AEA Technology, (1971)

Berg S., “Combustion Modelling” (2003)

Borghi R., “Réactions Chimiques en Milieu Turbulent”, Thèse de Doctorat, Université Pierre et Marie Curie, Paris, (1978)

Coelho P. J., Peters N., “Numerical Simulation of a Mild Combustion Burner”, Combustion and Flame, 124, 503-518, (2001)

Chomiak J., “Combustion: A Study in Theory, Fact and Application”, Energy and Engineering Series, Abacus Press, (1989)

Christo F. C., Dally B. B., “Modelling Turbulent Reacting Jets Issuing into a Hot and Diluted Coflow”, Combustion and Flame, In Press, (2005)

Dally B.B., Fletcher D.F., Masri A.R., “Modelling of Turbulent Flames Stabilised on a Bluff Body”, Combustion Theory and Modelling, 2, 193-219, (1998a)

Dally B.B., Masri A.R., Barlow R.S., Fiechtner G.J., “Instantaneous and Mean Compositional Structure of Bluff-Body Stabilised Nonpremixed Flames”, Combustion and Flame, 114, 119-148, (1998b)

Dally B.B., Riesmeier E., Peters N., “Effect of fuel mixture on moderate and intense low oxygen dilution combustion”, Combustion and Flame, 137, 418-431, (2004)

Giacomazzi E., Favini B., Bruno C., Picchia F.R., Arcidiacono N., “Turbulent Flames Dynamics and their numerical simulation” ECCOMAS Conference on Computational Combustion, Jyvaskyla, (2004)

Hottel H.C., Sarofim, A.F., “Radiative Transfer”, McGraw-Hill, New York, (1967)

Jones W. P., Lindstedt R. P., "Global Reaction Schemes for Hydrocarbon Combustion,"

Combustion and Flame, 73, 233-249, (1988)

Kuo K. K., “Principles of Combustion”, John Wiley & Sons, New York, (1986)

Launder B. E., "The Prediction of Laminarization with a Two-Equation Model of Turbulence”, Journal of Heat and Mass Transfer, 15, 301-314, (1972)

Launder B. E., Morse A. P., Rodi W., Spalding D. B., “The Prediction of Free Shear Flows-A

Comparison of Six Turbulence Models”, NASA SP-311, (1972)

Bibliografia

2 Lockwood F.C., Shah N.G., “A New Radiation Solution Method for Incorporation in General

Combustion Prediction Procedures”, 18th Symposium (International) on Combustion, The Combustion Institute, 1405-1414, (1981)

Magnussen B. F., “The Eddy DissipationConcept – A Bridge Between Science and Tecnology”, ECCOMAS Conference on Computational Combustion, Lisbona, (2005)

Magnussen B. F., “On the structure of turbulence and a generalized eddy dissipation concept for chemical reaction in turbulent flow”, 19 Th American Institute of Aeronautics and Astronautics Aerospace Science meeting (1981)

Magnussen B. F., “Modelling of NOx and Soot formation by the Eddy Dissipatio Concept”

CIMAC Conference Tianjin (1989)

Gran,I. R. And Magnussen, B.F. (1996b) A numerical study of a bluff-body stabilized diffusion flame . Part 2. Influence of combustion modeling and finite-rate chemistry. Comb. Sci.

Technol.,119, 191-217.

Gran,I. R. And Magnussen, B.F. (1996b) A numerical study of a bluff-body stabilized diffusion flame . Part 1. Influence of combustion modeling and finite-rate chemistry. Comb. Sci.

Technol.,119, 191-217.

Ivar,S Ertesvag And Bjorn F, Magnussen, B.F. The eddy Dissipation Turbulence Energy Cascade Model. Comb. Sci. Technol.(1999)

Magnussen B. F., Hjertager B. H., “On Mathematical Modelling of Turbulent Combustion with Special Emphasis on Soot Formation and Combustion”, 16th Symposium (International) on Combustion, The Combustion Institute, 719-729, (1976)

Mastorakos E., Taylor A. M., Whitelaw J. H., “Turbulent Counterflow Flames with Reactants Diluted by Hot Products”, Joint Meeting of the British and German Sections, The Combustion Institute, Cambridge, (1993)

Mauri M., “Fenomeni di Trasporto”, Dispense del Corso di Principi di Ingegneria Chimica, Università di Pisa, A.A. 2003-2004;

Miller J. A., Bowman C. T., “Mechanism and Modelling of Nitrogen Chemistry in Combustion”, Progress in Energy and Combustion Science, 15, 287-338, (1989)

Modest M. F., “Heat Transfer Handbook”, Chapter VIII, Radiative Heat Transfer, John Wiley &

Sons, New York, (2003)

Morse A. P., “Axisymmetric Turbulent Shear Flows with and without swirl”, PhD Thesis,

London University, (1977)

Bibliografia

3 Özdemir B. I., Peters N., “Characteristics of the Reactions Zone in a Combustor Operating at

Mild Combustion”, Experiments in Fluid, 30, 683-695, (2001)

Parente A., “Combustione Flameless di Metano e Idrogeno:Impiego della Fluidodinamica computazionale per lo sviluppo di bruciatori industriali a basso impatto ambientale”, Tesi di Laurea Specialistica, Università di Pisa, (A.A. 2003-2004)

Peters N., “Fifteen Lectures on Laminar and Turbulent Combustion”, Ercoftac Summer School, Aachen, (1992);

Peters N., “Turbulent Combustion”, Cambridge monographs on mechanism, Cambridge University Press, (2000)

Plessing T, Peters N., Wünning J. G., “Laser Optical Investigation of Highly Preheated

Combustion with Strong Exhaust Gas Recirculation”, 27th Symposium (International) on Combustion, The Combustion Institute, 3197-3204, (1998)

Poinsot T., Veynante D., “Theoretical and Numerical Combustion”, Edwards, Philadelphia, (2001)

Pope S. B., “An explanation of the Turbulent Round-Jet/Plane-Jet Anomaly”, AIAA Journal, 16, 279-281, (1978)

Prandtl L., “Investigation on turbulent flow”, Zeitcchrift fur angewandte Mathematik und Mechanik, 5, 136-139, (1925)

“Proceedings of the 5th International Workshop on Measurement and Computation of Turbulent Non-Premixed Flames”, (2000)

Rhie C.M., Chow W.L., “A numerical Study of the Turbulent Flow Past an Isolated Airfoil with Trailing Edge Separation”, AIAA Paper 82-0998, (1982)

Sarkar S., Erlebacher B., Hussaini M., Kreiss H., “The Analysis and Modelling of Dilational Terms in Compressible Turbulence”, Journal of Fluid Mechanics, 227, 473-493, (1991)

Smagorinsky J., "General Circulation Experiments with the Primitive Equations", Monthly Weather Review, 91, 99-164, (1963)

Smith T. F., Shen Z. F., Friedman J. N.. “Evaluation of Coefficients for the Weighted Sum of Gray Gases Model”. Journal of Heat Transfer, 104, 602-608, (1982)

Spalart P.R., Jou W.H., Strelets M., Allmaras S.R., “Comments on the Feasibility of LES for Wings, and on a Hybrid RANS/LES Approach”, 1st AFOSR International Conference on DNS/LES, (1997)

Spalding D.B., ”Mixing and Chemical Reaction in Steady Confined Turbulent Flames”, 13

Symposium (International) on Combustion, The Combustion Institute, 649–657, (1971)

Bibliografia

4 Telger K., Roth W., “Betriebserfahrungen beim Einsatz von Brennern mit flammloser

Oxidation”, Gas Wärme International, 44, 332-337, (1995)

Tennekes H. ,“Simple model for the Small-Scale Structure of Turbulence “ Pennsylvania State University (1967)

Warnatz J., Mass U., Dibble R. W, “Combustion”, Springer Verlag, 219-221, (1996) Westbrook C., Dryer F., “Chemical Kinetic Modelling of Hydrocarbon Combustion”, Progress in Energy and Combustion Science, 10, 1-57, (1984)

Westbrook C. K., Dryer F. L., “Simplified Reaction Mechanism for the Oxidation of

Hydrocarbon Fuels in Flames”, Combustion Science and Technology, 27, 31-43, (1981)

Westenberg A. A., "Kinetics of NO and CO in Lean, Preximed Hydrocarbon-Air Flames“, Combustion Science and Technology, 4, 59, (1971)

Yakhot V., Orszag, S. A.. “Renormalization Group Analysis of Turbulence”, Journal of Scientific Computing, 1, 1-51, (1986)

Zabetakis M. G., “Flammability Characteristics of Combustible Gases and Vapours”, U.S.

Department of the Interior, Bureau of Mines, Bulletin 627, (1965)

Magnussen B. F., “On the structure of turbulence and a generalized eddy dissipation concept for chemical reaction in turbulent flow”, 19 ^Th American Institute of Aeronautics and Astronautics Aerospace Science meeting (1981)