关键词: 稀液雾；值班火焰；大涡模拟；FPV模型

Abstract: To promote the understanding of the gas-liquid two-phase turbulent combustion，and test the applicability of the flamelet-type combustion model in spray flames，simulation of a piloted ethanol-air spray flame is conducted using the flamelet/progress-variable (FPV) approach in the Eulerian-Lagrangian framework. The gas turbulent flow in Eulerian framework is simulated using large-eddy simulation while the discrete liquid phase is described using the Lagrangian particle trajectory model，considering interphase mass，momentum，and energy exchange. Effects of the liquid phase on the combustion model are mainly reflected in the source term of the mixture fraction equation，and the mixture fraction is defined based on the carbon element. The resulting gaseous temperature and droplet statistics are all in good agreement with experimental data，which verifies the validation of this combustion model for dilute spray diffusion-type flame. Analysis of the instantaneous contour plots show that maximum temperature is often located around the stoichiometric mixture fraction. The flame is ignited and stabilized about 20 times diameter downstream of the jet inlet and upstream some local extinction and re-ignition is captured by FPV model. Meanwhile，evaporation is strong in the shear layer and ignition region. Plots of OH and droplets show that interaction between liquid droplet and the flame is weak and droplet is rarely surrounded by flame.

Key words: Dilute spray；Piloted flame；Large eddy simulation；FPV model