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A Method for Evaluating Fully Developed Turbulent Flame Speed
Technical Paper
2001-24-0046
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Fan-stirred bombs, which are widely used worldwide, offer an unique opportunity to investigate basic features of S.I. engine combustion under well-defined experimental conditions. Extensive data bases on turbulent flame speeds have been generated by various groups utilizing such bombs. However, the use of these data bases is impeded by the fact that the measured flame speeds characterize an inherently transient process, i.e.. the speeds are time-dependent even if the pressure and the unburned gas temperature in the bomb are very close to the initial values; whereas the combustion theory and various models deal commonly with an asymptotically fully developed turbulent flame speed. The goal of this work is to test a method for evaluating the latter quantity by processing the published data on the flame radius growth, measured in expanding, statistically spherical, premixed flames. For these purposes, an experimentally well-supported parameterization of the mean turbulent flame brush thickness development is invoked. The obtained results seem to be encouraging and they support the method for evaluating asymptotically fully developed turbulent flame speeds.
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Citation
Lipatnikov, A. and Chomiak, J., "A Method for Evaluating Fully Developed Turbulent Flame Speed," SAE Technical Paper 2001-24-0046, 2001, https://doi.org/10.4271/2001-24-0046.Also In
References
- Heywood, J.B. Internal Combustion, Engine Fundamentals McGraw-Hill 1989
- Zimont, V.L. Lipatnikov, A.N. Doklady Physical Chemistry 332 592 594 1993
- Weller, H.G. Uslu, S. Gosman, A.D. Maly, R.R. Herweg, R. Heel, B. COMODIA 94 JSME Yokohama 163 169 1994
- Schmidt, H.P. Habisreuther, P. Leuckel, W. Combust. Flame 113 79 91 1998
- Lipatnikov, A.K. Chomiak, J. J. Engines. SAE Transactions 106 2441 2453 1997
- Nishiwaki, K. COMODIA 98 JSME Kyoto 35 44 1998
- Kawanabe, H. Shioji, M. Tsunooka, T. All, Y. COMODIA 98 JSME Kyoto 233 238 1998
- Lipatnikov, A.N. Wallesten, J. Nisbet, J. COMODIA 98 JSME Kyoto 239 244 1998
- Heel, B. Maly, R. Weller, H.G. Gosman, A.D. COMODIA 98 JSME Kyoto 255 260 1998
- Kech, J.M. Reissing, J. Gindele, J. Spicher, U. COMODIA 98 JSME Kyoto 287 292 1998
- Karpov, V.P. Sokolik, A.S. Doklady (Proceedings) of Academy of Science USSR Physical Chemistry Section 141 866 868 1961
- Karpov, V.P. Severin, E.S. Combust. Explos. Shock Waves 16 41 46 1980
- Abdel-Gayed, R.G. Bradley, D. Lawes, M. Proc. Royal Soc. London, A414 389 413 1987
- Bradley, D. Lawes, M. Scott, M.J. Mushi, E.M.J. Combust. Flame 99 581 590 1994
- Groff, E.G. Combust. Flame 67 153 162 1987
- Kido, H. Kitagawa, T. Nakashima, K. Kato, K. Memoirs of the Faculty of Engineering. Kyushu University 49 229 247 1989
- Leuckel, W. Nastoll, W. Zarzalis, N. Proc. Combust. Inst. 23 729 734 1990
- Kwon, S. Wu, M.S. Driscoll, J.F. Faeth, G.M. Combust. Flame 88 221 238 1992
- Koroll, J.W. Kumar, R.K. Bolwles, E.M. Combust. Flame 94 330 340 1993
- Checkel, M.D. Thomas, A. Combust Flame 96 351 370 1994
- Ting, D.S.-K. Checkel, M.D. Haley, R. Smy, P.R. SAE Paper 940687 1994
- Monqallid, M. Lecordier, B. Trinite, M. SAE Paper 941990 1994
- Bielert, U. King, M. Adomeit, G. Combust. Flame 106 11 28 1996
- Leisenheimer, B. Leuckel, W. Combust. Sci. Tech 118 147 164 1996
- Lipatnikov, A.N. Chomiak, J. Progr. Energy Combust. Sci.
- Palm-Leis, A. Strehlow, R.A. Combust. Flame 13 111 129 1969
- Lipatnikov, A.N. Chomiak, J. Combust. Sci. Tech 154 75 117 2000
- Clavin, P. Progr. Energy Combust. Sci 11 1 59 1985
- Dowdy, D.R. Smith, D.B. Taylor, S.C. Williams, A. Proc. Combust. Inst 23 325 331 1990
- Taylor, S.G. University of Leeds 1991
- Tseng, L.-K. Ismail, M.A. Faeth, G.M. Combust. Flame 95 410 1993
- Bradley, D. Gaskell, P.H. Gu, X.J. Combust. Flame 104 176 198 1996
- Lipatnikov, A.N. Combust. Sci. Tech 119 131 154 1996
- Karpov, V.P. Lipatnikov, A.N. Wolanskii P. Combust. Flame 109 436 448 1997
- Hassan, M.L Aung, K.T. Faeth, G.M. Combust. Flame 115 539 550 1998
- Gn, X.J. Haq, M.Z. Lawes, M. Woolley, R. Combust. Flume 121 41 58 2000
- Hainsworth, E. Study of Free Turbulent Premixed Flames M.I.T. 1985
- Lipatnikov, A.N. Chomiak, J. ‘“Developing Pre- rnixed Turbulent Flames: Part I. A Self-Similar Regime of Flame Propagation” Combust. Sci. Tech.
- Karlovitz, B. Denniston, D.W. Wells, F.E. J. Chem. Phys 19 541 547 1951
- Scurlock, A.L. Grover, J.H. Proc. Combust. Inst 4 645 658 1953
- Prudnikov, A.G. Physical Basis of Processes in, Combustion Chambers of Air-Breathing Engines Raushenbakh, B.V. Mashinostroenie, Moscow 255 347 1964
- Brodkey, R.S. The Phenomena of Fluid Motions Addison-Wesley Publ. Comp. London 1967
- Goix, P. Paranthoen, P. Trinite, M. Combust. Flame 81 229 241 1990
- Atashkari, K. Lawes, M. Sheppard, C.G.W. Wooley, R. Engineering Turbulence Modelling and Measurements 4 Rodi, W. Laurence, D. Elsevier Amsterdam 805 814 1999
- Peters. N. Proc. Combust. Inst 21 1231 1249 1986
- Roberts, W.L. Driscoll, J.F. Drake, M.C. Goss, L.P. Combust Flame 94 58 69 1993
- Zimont, V.L. Exp. Thermal Fluid Sci 21 179 186 2000
- Ashurst, W.T. Combust. Sci. Technol 104 19 32 1995
- Bray, K.N.C. Moss, J.B. Acta Astronautica 4 291 319 1977
- Bray, K.N.C. Proc. Royal Soc. London A451 231 256 1995
- Lipatnikov, A.N. Chomiak, J. ‘“Developing Pre- rnixed Turbulent Flames: Part II. Pressure-Driven Transport and Turbulent Diffusion”‘ Combust. Sci. Technol.
- Gostiritsev, Yu. A. Istratov, A.G. Shulenin, Yu. V. Combust. Explos. Shock Waves 24 563 1988
- Chew, T.C. Britter, R.E. Int. J. Engn. Sci 30 983 1002 1992