Bibliographies

[1] Denis Veynante ; Modélisation et simulation numérique de la combustion turbulente : exemples, challenges et perspectives ; La lettre de l'IDRIS

[2] Y. Zhang et K. N. C. Bray. »Brief Communication Characterization of Impinging Jet Flames», Combustion and Flame 116. 67 1-674. 1999

[3] T. Foat, K. P. Yap, and Y. Zhang. «The Visualization and Mapping of Turbulent Premixed Impinging Flames», Combustion and Flame 125:839-85 1 (2001).

[4] Kostiuk, L., Bray, K. N. C., and Cheng, R., Combust. Flame 92:377-395 (1993).

[5] O. B. Drennov « Structure of a Shaped Jet Formed in an Oblique Collision of Flat Metal Plates», Combustion, Explosion, and Shock Waves, Vol. 37, No. 3, pp. 393-399, 2001.

[6] S.G. Tuttle, B.W. Webb, M.Q. McQuay «Convective heat transfer from a partially premixed impinging flame jet. Part II: Time-resolved results», International Journal of Heat and Mass Transfer 48 (2005) 1252-1266.

[7] Bruno Leger , Patrick Andre , Guy Crienche , Gerard Schott « Controle thermique de parois de chambre de combustion ». Bane d'essai du Laboratoire aquitain de recherche en aérothermique Rev Gén Therm 35, 625-630. 1996

[8] Shuhn-Shyurng Hou, Yung-Chang Ko.» Effects of heating height on flame appearance, temperature field and efficiency of an impinging laminar jet flame used in domestic gas stoves», Energy Conversion and Management 45 (2004)

[9] Z. Zhao, T.T. Wong, C.W. Leung «Impinging premixed butane/air circular laminar flame jet--influence of impingement plate on heat transfer characteristics» International Journal of Heat and Mass Transfer 47 (2004) 5021-503 1

[10] L.L. Dong, C.W. Leung, C.S. Cheung «Heat transfer and wall pressure characteristics of a twin premixed butane/air flame jets» International Journal of Heat and Mass Transfer 47 489-500. 2004

[11] Ay Su a, Ying-Chieh Liu.» Investigation of impinging diffusion flames with inert gas International Journal of Heat and Mass Transfer 45 (2002) 325 1-3257.

[12] L.K. Sze, C.S. Cheung, C.W. Leung «Temperature distribution and heat transfer characteristics of an inverse diffusion flame with circumferentially arranged fuel ports» International Journal of Heat and Mass Transfer 47 (2004) 3119-3129

[13] Hongshe Xue, Suresh K. Aggarwal « NOx emissions in n-heptane/air partially premixed flames» Combustion and Flame 132 (2003) 723-741

[14] Ivar S.A. Isaksen, Jan S. Fuglestvedt1, Terje K. Berntsen, , Huiting Mao, XinZhong Liang and Wei-Chyung Wang «Impacts of reduced NOx emissions on radiative forcing through changes in tropospheric O3 and CH4- a global 3-D model study » «Proceedings of the Ozone Symposium-96» (where it will appear in abridged form).

[15] Igor Orlandini and Uwe Riedel « Modelling of NO and HC removed by non-thermal plasmas » Combustion Theomry Modelling 5(200 1) 447-462

[16] Teodora Rutar, Philip C. Malte, and John C. Kramlich «Investigation of NOx and CO Formation in Lean-Premixed, Methane-Air, High-Intensity, Confined Flames at Elevated Pressures» Submitted to the 28th International Symposium on Combustion, University of Edinburgh, Scotland, July 30 - Aug. 4, 2000.

[17] Qing Tang, Jun Xu and Stephen B. Pope «Probability density function calculations of local extinction and NO production in piloted jet turbulent Methane/Air flames» Proceedings of the Combustion Institute, Volume 28, 2000/pp. 133-139

[18] Sayangdev Naha, Suresh K. Aggarwal «Fuel effects on NOx emissions in partially premixed flames» Combustion and Flame 139 (2004) 90-1 05

[19] Hongsheng Guo, Fengshan Liu, Gregory J. Smallwood and Omer L. Gulder «A Numerical Investigation of Thermal Diffusion Influence on Soot Formation in Ethylene/Air Diffusion Flames» International Journal of Computational Fluid Dynamics, February 2004 Vol. 18 (2), pp. 139-151

[20] Jean-Marie Truffaut « étude expérimentale de l'origine du bruit emis par les flamme de chalumeaux » Doctorat de l'Université de Provence (Aix-Marseille I), 16 décembre 1998

[21] Vincent Faivre « étude expérimentale et numérique du contrôle actif de jets dans des chambre de combustion » Doctorat de l'institut national polytechnique de Toulouse 15 Décembre 2003

[22] S. Hanchi, T. Belmarabet, L. Tarrabet, N. Ghiti. « Investigation numérique sur la formation de NO X d'une flamme de diffusion d'impact (Impinging diffusion flame) », Congrès Française de Thermique, SFT 2006, Ile de Ré, 16-19 mai 2006.

[23] Schlichting. H «Boundary layer theory». Mc Graw Hill. New York (1975)

[24] A.O. Hemeson, M.E. Horsley, M.R.I. Purvis, and A.S. Tariq, «Heat transfer from flames to convex surfaces, Inst. of Chem. Eng. Symp. Series, 2(86), 969-978. Publ. by Inst. of Chem. Eng., Rugby,U.K., 1984.

[25] De Lucia, «Oxygen enrichment in combustion processes: comparative experimental results from several application fields», J. Energy Resources Technology, 113, 122-126, 1991.

[ 26 ] H. Kobayashi, J.G. Boyle, J.G. Keller, J.B. Patton, and R.C. Jain, «Technical and economic evaluation of oxygen enriched combustion systems for industrial furnace applications», in Industrial Combustion Technologies, M.A. Lukasiewicz, Ed., American Society of Metals, Warren, PA, , 153-163. 94. M. 1986

[ 27 ] Fuel preheat as NOx abatement strategy for oxygen enriched turbulent diffusion flames, ECVol.3/FACT-Vol. 20, 1995 Joint Power Generation Conf., S.M. Smouse and W.F. Frazier, Eds., ASME,1995, 259-269.

[28] J.W. Mohr, J. Seyed-Yagoobi, and R.H. Page, «Heat transfer from a pair of radial jet reattachment flames», in Combustion and Fire, ASME Proceedings of the 31 st National Heat Transfer Conf., Vol. 6, M. McQuay, K. Annamalai, W. Schreiber, D. Choudhury, E. Bigzadeh, and A. Runchal, Eds., New York, HTD-Vol. 328, 11-17, 1996.

[29] A. Mili, Z. Gergour. « Etude expérimentale des jets de flammes d'impact, application flamme Air/Butane ». Mémoire Ingénieur d'états Ecole Militaire Polytechnique 2006.

[30] A. Ivernel et P. Vernotte, « Etude expérimentale de l'amélioration des transferts convectis dans les fours par suroxygénation du comburant », Rev. Gén. Therm., Fr., (2 10- 211), 375-391, 1979.

[31] G. D. Arnold, «Developments in the use of oxy/gas burners», J. Inst. Fuel, 40, 117-121, 1967.

[32] H. Kobayashi, J.G. Boyle, J.G. Keller, J.B. Patton, and R.C. Jain, «Technical and economic evaluation of oxygen enriched combustion systems for industrial furnace applications», in Industrial Combustion Technologies, M.A. Lukasiewicz, Ed., American Society of Metals, Warren, PA, 153-163. 94. M. 1986

[33] De Lucia, «Oxygen enrichment in combustion processes: comparative experimental results from several application fields», J. Energy Resources Technology, 113, 122-126, 1991.

[34] R.Borghi, M.Destriau, « La combustion et les flammes », éditions technip 1995.

[35] Hinze. J.O Turbulence. McGraw Hill Publishing, New York. 1975.

[36] Jones. W. P, Launder. B.E «The prediction of laminarization with a tow equation model of turbulence». Int. Jl. Heat Mass Transfer, Vol. 15(n°2): pages 301-314, 1972.

[37] Launder et Spalding « Lectures in Mathematical Models of Turbulence », Academic Pess, London (1972).

[38] Yakhot V. and S. A. Orszag «Renormalization group analysis of turbulcnce. 1. Basic theory.» Journal of Scientific Computing 1: 3-51. 1986.

[39] guide Fluent, vol 4, 1997.

[40] Chen. H.C et Patel. V. C, «Near wall turbulence models for complex flows including separation, AIAA J, 26, 641, 1988.

[41] Wilcox, Wilcox. D.C «Turbulence modelling for C.F.D», DCW Industries, Inc., La Canada California, 1993.

[42] Hrenya et Sinclair, «Effects of particle phase turbulence in gas-solid flow, AIChEJ,43, 853-869. 1995.

[43] Amano. R. S «Development of a turbulence near wall model», Numer. Heat Transfer, 7, 59. 1984

[44] Ferziger et Peric, «Computational Methods for Fluid Dynamics», Springer Verlag, Berlin. 1995

[45] Lien. F.S. and Leschnizer M.A «A General Non-Orthogonal Collocated finite Volume Algorithme for Turbulent Flow at all Speeds Incorporating Second-Moment Turbulence Transport Closure», Part1: Computation Implementation Comput. Methods Appl. Mech. Engineering, V1 14, pp123-148, 1994.

[46] D. Morvan, B. Porterie et al. « Simulation numérique de statoréacteurs ». Thèse de Doctorat.

[47] Patankar. S.V et Spalding «A Calculation Procedure for Heat, Mass and Momentum Transfer in Three dimensional Parabolic Flow, Int.J.Heat Mass Transfer, Vol. 15, p, 1972.