Simulation of Carbon Monoxide Emission during Combustion of a Liquid Fuel Injected by a Pressure Swirl Atomizer into the Combustion Chamber
N. I. Gurakov, I. A. Zubrilin, O. V. Kolomzarov, D. V. Idrisov, V. M. Anisimov, A. D. Popov, V. Yu. Abrashkin, S. S. Matveev, S. G. Matveev
Samara National Research University, Samara, 443086 Russia
Keywords: model combustion chamber, fuel flow in the atomizer, volume-of-fluid method, Lagrange method, aviation kerosene surrogate, reactor models, simulation of CO emissions
Abstract
A method of calculating the characteristics of atomization of a liquid fuel by pressure swirl atomizer for setting the boundary conditions of injection into the primary combustion area is proposed. Results of simulating CO emission in a model combustion chamber are presented for two variants of the boundary conditions of liquid fuel injection: (1) with the use of the discrete phase model (DPM), where the parameters of fuel atomization are obtained by modeling a two-phase flow by the volume-of-fluid (VOF) method, and (2) for comparisons, with the use of the semi-empirical method of calculating pressure swirl atomizers developed by H. Lefebvre. The method of determining the boundary conditions of injection proposed in the paper makes it possible to increase the accuracy of predicting CO emissions by several times as compared to the classical semi-empirical method of calculating pressure swirl atomizers.
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