Sourabh V. Apte scite author profile

Large-eddy simulation (LES) has traditionally been restricted to fairly simple geometries. This paper discusses LES of reacting flows in geometries as complex as commercial gas turbine engine combustors. The incompressible algorithm developed by Mahesh et al. (J. Comput. Phys., 2004, 197, 215–240) is extended to the zero Mach number equations with heat release. Chemical reactions are modeled using the flamelet/progress variable approach of Pierce and Moin (J. Fluid Mech., 2004, 504, 73–97). The simulations are validated against experiment for methane-air combustion in a coaxial geometry, and jet-A surrogate/air combustion in a gas-turbine combustor geometry.

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Filtered particle tracking in isotropic turbulence and stochastic modeling of subgrid-scale dispersion

Pozorski

Apte

2009

International Journal of Multiphase Flow

171

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Sourabh V. Apte

Large-eddy simulation of swirling particle-laden flows in a coaxial-jet combustor

LES of atomizing spray with stochastic modeling of secondary breakup

A numerical method for fully resolved simulation (FRS) of rigid particle–flow interactions in complex flows

Large-Eddy Simulation of Reacting Turbulent Flows in Complex Geometries

Filtered particle tracking in isotropic turbulence and stochastic modeling of subgrid-scale dispersion

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