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Pure Appl. Chem., 1990, Vol. 62, No. 5, pp. 803-814

The mathematical modelling of premixed turbulent combustion

Derek Bradley and A. K. C. Lau

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  • Kulkarni Rohit Madhukar, Polifke Wolfgang: LES of Delft-Jet-In-Hot-Coflow (DJHC) with tabulated chemistry and stochastic fields combustion model. Fuel Processing Technology 2013, 107, 138. <>
  • Kulkarni Rohit, Zellhuber Mathieu, Polifke Wolfgang: LES based investigation of autoignition in turbulent co-flow configurations. Combustion Theory and Modelling 2013, 17, 224. <>
  • Bradley D., Gaskell P.H., Gu X.J., Mathew Joseph, Soteriou Marios C.: The mathematical modeling of liftoff and blowoff of turbulent non-premixed methane jet flames at high strain rates. Symposium (International) on Combustion 1998, 27, 1199. <>
  • Kakutkina N. A., Korzhavin A. A., Babkin V. S., Zamashchikov V. V., Pleslov A. A.: Scale modeling of gas explosions in closed vessels. Combust Explos Shock Waves 1996, 32, 615. <>
  • Bradley Derek, Gaskell P.H., Gu X.J.: Application of a reynolds stress, stretched flamelet, mathematical model to computations of turbulent burning velocities and comparison with experiments. Combustion and Flames 1994, 96, 221. <>
  • Bradley Derek: How fast can we burn?. Symposium (International) on Combustion 1992, 24, 247. <>
  • Bradley D., Gaskell P.H., Lau A.K.C., Kern R.D., Xie K., Chen H., Kiefer J.H., Mau�� F., Keller D., Peters N.: A mixedness-reactedness flamelet model for turbulent diffusion flames. Symposium (International) on Combustion 1991, 23, 685. <>
  • Becker H., Monkhouse P.B., Wolfrum J., Cant R.S., Bray K.N.C., Maly R., Pfister W., Stahl G., Warnatz J., Abd Al-Masseeh W.A., Bradley D., Gaskell P.H., Lau A.K.C., G��lder ��mer L.: Investigation of extinction in unsteady flames in turbulent combustion by 2D-LIF of OH radials and flamelet analysis. Symposium (International) on Combustion 1991, 23, 817. <>