Unsteady MHD Squeezing Flow of Casson Fluid Over Horizontal Channel in Presence of Chemical Reaction

The fluid flow with chemical reaction is one of well-known research areas in the field computational dynamic. It has been acknowledged by many researchers due to its industrial applications modelling on a nuclear reactor. Motivated implementation industry problems, aim this study explore impacts magnetohydrodynamic (MHD) squeeze Casson over permeable medium slip condition viscous dissipation. induced compress two plates. Transformation partial differential equations (PDEs) ordinary (ODEs) performed imposing similarity variables. numerical procedure Keller-box used solve dimensionless equations. Comparison results former studies validate current solutions conducted. shown be proper agreement. show that velocity and wall shear stress enhance as both plates moving nearer. Moreover, increase Hartmann parameters reducing velocity, temperature concentration. rate thermal transfer boosts existence Furthermore, mass discovered destructive adverse outcome noted constructive reaction.