@article{article_259238, title={Influence of Swirl Number on Semi-Confined Flames}, journal={International Journal of Applied Mathematics Electronics and Computers}, volume={4}, pages={65–67}, year={2016}, DOI={10.18100/ijamec.69979}, author={Parra-santos, M. Teresa and Perez, Ruben and Mendoza, Victor and Rodriguez, Miguel A. and Castro, Francisco}, keywords={CFD,RANS; Swirl; Flame; Methane}, abstract={<span style="color:#000000;font-family:’Times New Roman’, serif;font-size:12pt;" lang="en-us" xml:lang="en-us">Stoichiometric methane air swirling flame has been modelled using RANS equations and a simplified mechanisms of reaction. The reaction zone is strongly affected by the swirl intensity. The higher the swirl number is, the narrower the reaction zone is. The thermodynamic state of reaction products matches well that of equilibrium state at constant pressure. </span>}, number={3}, publisher={PLUSBASE AKADEMİ ORGANİZASYON VE DANIŞMANLIK}