Numerical study of influences of crosswind and additional steam on the flow field and temperature of propane non-premixed turbulence flame

This paper presents results the process of combustion propane using computational fluid dynamics (CFD) to simulate the turbulent non-premixed flame under the influences of crosswinds and the ratio of fuel (propane) to steam, S. Configuration, discretization and boundary conditions of the flame are described using Gambit (TM) software and integrated with Fluent (TM) software for calculations of flow and reactive fields. This work focuses on the influence of various crosswind speeds (0-10 m/s) and values of S (0.14-2.35) while the velocity of fuel issued from the nozzle was kept constant at 20 m/s. A turbulence model, k-epsilon standard and combustion model, Eddy Dissipation model were employed for the calculation of velocity and temperature fields, respectively. The results are displayed in the form of predictive terrain profile of the propane flame at different crosswind speeds. The results of the propane flame profile demonstrated that the crosswind significantly affect the structure velocity and position of the flame which was off-center moving towards the direction of crosswind, eventually affect the temperature along the flame. As the values of S is increasing, the flame contour temperature decreases, until the flame was extinguished at S equals to 2.35. The combustion efficiency for a variety of crosswind speeds decreases with increasing values of S.