Research on MHD squeeze nanofluid flow between parallel plates with cross-diffusion effects exploiting OHAM method

In this research work, unsteady two dimensional squeezed MHD nanofluid flow with heat and mass transfer is examined in the existence of viscous dissipation, radiation and cross-diffusion effects between collateral plates. Lower plate kept stable and upper plate was moving. Initially, the governing equations are converted into dimensionless ordinary differential equations utilizing the satisfactory transformations and solved by applying optimal homotopy analysis procedure. The authenticity of the OHAM technique was tested by comparison of preceding research effort. Focus in this paper is to observe the effects of several dimensionless parameters such as Brownian motion parameter, radiation parameter, cross-diffusion effects and chemical reaction parameter etc. on velocity, temperature and mass through graphs and simultaneously on Nusselt number, skin friction coefficient and Sherwood number with the help of tables.