@misc{Ahmed_Tanvir_Chemically,
 author={Ahmed, Tanvir and Alam, Mahmud and Ferdows, Mohammad and Tzirtzilakis, Efstratios},
 howpublished={online},
 publisher={Zielona Góra: Uniwersytet Zielonogórski},
 language={eng},
 abstract={Numerical studies have been performed to examine the chemically reacting ionized fluid flow through a vertical plate with induced magnetic field. This study is performed for the cooling problem. To obtain the non-dimensional non-similar momentum, the induced magnetic field, energy and concentration equations, usual non-dimensional variables have been used.},
 abstract={The numerical solutions for the velocity fields, induced magnetic fields, temperature distribution as well as concentration distribution are obtained for associated parameters using the explicit finite difference method. The local and average shear stresses, current densities, Nusselt number as well as the Sherwood number are also investigated.},
 abstract={The obtained results are discussed with the help of graphs to observe effects of various parameters entering into the problem. Also the stability conditions of the explicit finite difference method are analyzed. Finally, a qualitative comparison of the present results with previously published results has been made.},
 type={artykuł},
 title={Chemically reacting ionized radiative fluid flow through an impulsively started vertical plate with induced magnetic field},
 keywords={boundary layer, radiative flow, strong magnetic field, ionized gas, flow fields},
}