In order to accurately model combustion, it is important to account for the interactions between turbulence, mixing, and chemical reactions. Turbulence models are used to capture the turbulent flow behavior of the fuel and oxidizer mixture, while mixing models are used to predict the mixing of fuel and oxidizer. Chemical kinetics models are used to describe the chemical reactions that take place during combustion, including the rate at which reactants are consumed and products are formed.
The use of detailed chemistry in combustion simulations allows for the prediction of species concentrations and temperature profiles throughout the combustion process. This can help to optimize combustion systems for improved energy efficiency and reduced emissions. For example, detailed chemistry simulations can be used to predict the formation of pollutants and other undesirable combustion byproducts, and to evaluate the effectiveness of different combustion control strategies.
We use advantage of CFD solvers detailed chemistry, multiphase flow modeling, and other powerful features of CFD softwares(Siemens Star-ccm+, AVL Fire, Ansys Fluent, Converge).
