Heat and Mass Transfer on 3D MHD Flow of Casson Nanofluid in Presence of Arrhenius Activation Energy

This work studied the influence of heat and mass transfer on the convective nanofluid motion of Casson nanofluid via linear stretched sheet. The main aim to analyse the characteristics of heat and mass transfer in Casson liquid under convective condition with effects of thermal radiation, heat generation and Arrhenius activation energy. We utilize some suitable similarity transformations to translate the governing PDEs and the initial boundary conditions of present model into a couple of nonlinear ODEs. We applied shooting procedure to solve the set of highly nonlinear ODEs numerically and calculate numerical results are related with those gained by the help of MATLAB bvp4c solver. The effect of prominent parameters of interest such as activation parameter, Lewis number, Thermophoresis parameter, Brownian motion parameter, thermal radiation, magnetic parameter, on velocity, temperature and heat and mass transfer is also encompassed. the numerical values obtained for defined through graphs and tables. The validation of present numerical work compared to previous work.