论文信息 - Evaluation of Advanced Two-Phase Flow and Combustion Models for Predicting Low Emission Combustors

Evaluation of Advanced Two-Phase Flow and Combustion Models for Predicting Low Emission Combustors

The development of low emission aero engine combustors strongly depends on the availability of accurate and efficient numerical models. The prediction of the interaction between two-phase flow and chemical combustion is one of the major objectives of the simulation of combustor flows. In this paper, predictions of a swirl stabilized model combustor are compared to experimental data. The computational method is based on an Eulerian two-phase model in conjunction with an Eddy Dissipation (ED) and a presumed-shapePDF (JPDF) combustion model. The combination of an Eulerian two-phase model with a JPDF combustion model is a novelty. It was found to give good agreement to the experimental data.

[1] A. M. K. P. Taylor,et al. Velocity and size characteristics of liquid-fuelled flames stabilized by a swirl burner , 1990, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.

[2] C. Westbrook,et al. Simplified Reaction Mechanisms for the Oxidation of Hydrocarbon Fuels in Flames , 1981 .

[3] R. Schmehl,et al. Efficient Numerical Calculation of Evaporating Sprays in Combustion Chamber Flows , 1998 .

[4] Michael Willmann,et al. Visualization of the instationary atomization and spray propagation inside a reacting model-gasturbine combustor , 1997 .

[5] H. Eickhoff,et al. Experimental and numerical study concerning stabilization of strongly swirling premixed and nonpremixed flames , 1992 .

[6] M. Ishii. Thermo-fluid dynamic theory of two-phase flow , 1975 .

[7] W. Leuckel,et al. A curvature correction for the κ – ε model in engineering applications , 1996 .