Modeling and Simulation of Effects of Turbulence on Vaporization, Mixing and Combustion of Liquid-Fuel Sprays

Interactions between liquid-fuel spray combustion and turbulent fluctuations were investigated in a gridgenerated turbulent flow. Based on experimental results, a novel formation mechanism of the dense droplet groups was proposed. The model is valid for the sprays in which liquid droplets can follow

This paper addresses the physiochemical mechanisms involved in transcritical and supercritical vaporization, mixing, and combustion processes in contemporary liquid-fueled propulsion and power-generation systems. Fundamental investigation into these phenomena poses an array of challenges due to the

Spray characteristics like mean drop diameter and spray cone angle play an important role in the process of combustion within a gas turbine combustor. In order to study their effects on wall and exit temperature distributions and combustion efficiency in the combustor, a numerical model of a typical