ТOM 94, №3
Hydromagnetic oscillatory reactive flow through a porous channel in a rotating frame subject to convective heat exchange under arrhenius kinetics
This paper is aimed at studying an unsteady hydromagnetic flow of a viscous incompressible electrically conducting reactive fluid in a permeable channel with asymmetrical convective boundary conditions in a rotating reference frame under the Arrhenius kinetics with neglect of the reactant consumption. Asymmetrical convective heat exchange with the surrounding medium at the channel surfaces follows the Newton law of cooling. A chemical reaction in the flow system is exothermic and assumed to follow the Arrhenius rate law. The heat transfer characteristics of the flow are considered with viscous and Joule dissipations taken into account. The expressions for the velocity components obtained in closed form are used to calculate the wall shear stresses. The energy equation is tackled numerically with using MATLAB. The effects of the pertinent parameters on the flow dynamics are analyzed graphically. The results reveal that the combined effects of magnetic field, rotation, suction/ injection, and convective heating substantially affect the flow characteristics in the channel.
Автор: Das S., Patra R. R., Jana R. N.
Ключевые слова: hydromagnetic reactive flow, permeable channel, suction/injection, convective boundary conditions, viscous and Joule heating, Arrhenius kinetics, rotating frame
Das S., Patra R. R., Jana R. N.. Hydromagnetic oscillatory reactive flow through a porous channel in a rotating frame subject to convective heat exchange under arrhenius kinetics // Инженерно-физический журнал. 2021. ТOM 94, №3. С. 722-733.
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