论文信息 - PREMIX :A F ORTRAN Program for Modeling Steady Laminar One-Dimensional Premixed Flames

PREMIX :A F ORTRAN Program for Modeling Steady Laminar One-Dimensional Premixed Flames

This report documents a Fortran computer program that computes species and temperature profiles in steady-state burner-stabilized and freely propagating premixed laminar flames. The program accounts for finite rate chemical kinetics and multicomponent molecular transport. After stating the appropriate governing equations and boundary conditions, we discuss the finite difference discretization and the Newton method for solving the boundary value problem. Global convergence of this algorithm is aided by invoking time integration procedures when the Newton method has convergence difficulties. The program runs in conjunction with preprocessors for the chemical reaction mechanism and the transport properties. Transport property formulations include the option of using multicomponent or mixtureaveraged formulas for molecular diffusion. Discussion of two example problems illustrates many of the program's capabilities.

[1] James A. Miller,et al. The Chemkin Thermodynamic Data Base , 1990 .

[2] J. A. Miller,et al. A Structured Approach to the Computational Modeling of Chemical Kinetics and Molecular Transport in Flowing Systems , 1987 .

[3] C. F. Curtiss,et al. The theory of flames and detonations , 1953 .

[4] Robert J. Kee,et al. A FORTRAN COMPUTER CODE PACKAGE FOR THE EVALUATION OF GAS-PHASE, MULTICOMPONENT TRANSPORT PROPERTIES , 1986 .

[5] Jürgen Warnatz,et al. Numerical Methods in Laminar Flame Propagation , 1982 .

[6] T. G. Cowling,et al. The mathematical theory of non-uniform gases , 1939 .

[7] Mitchell D. Smooke,et al. Sensitivity analysis of boundary value problems: Application to nonlinear reacti , 1986 .

[8] Robert J. Kee,et al. CHEMKIN-III: A FORTRAN chemical kinetics package for the analysis of gas-phase chemical and plasma kinetics , 1996 .

[9] Robert J. Kee,et al. Toward a comprehensive chemical kinetic mechanism for the oxidation of acetylene: Comparison of model predictions with results from flame and shock tube experiments , 1982 .