Heat and mass transfer in magnetized Casson fluid flow with entropy generation effects

The entropy generation privileged novel contribution in different heat management systems, thermal processes and energy conversion. The performances of heat transfer in various thermal systems are associated to the optimize thermal performances which can be ensured with applications of entropy generations. The motivated research aims to present the significance of entropy generation for natural convective flow of Casson fluid due to vertical porous flat plate. The insight of heat and mass transfer is subject to applications of mixed convection phenomenon. The transport problem further addressed the amplification of heat absorption/generation and chemical reaction effects. A Laplace computation technique is followed to solve the problem. Physical significance of modeled parameter is address for the entropy generation and Bejan number. It has been observed that the entropy generation enhances due to Brinkman number. The Bejan number reduces due to mass Grashof number. The interaction of magnetic force enhances the entropy generation and Bejan number.