Peristaltic Transport of (Al2O3/H2O) Nanofluid through A Vertical Asymmetric Channel with MHD Effects

In this investigation, we analyzed the effect of the magnetic field on the peristaltic motion of the nanofluid in a vertical asymmetrical channel utilizing heat and mass transfer. The present problem's unsteady governing equations are modulated. After converting the unstable equations into steady equations and applying the lubrication theory approximation, the long equations are reduced. The perturbation method is used to solve coupled nonlinear differential equations analytically (such as the concentration and temperature equations). The stream function's exact solution is also computed.  Plotting the velocity profile, pressure rise, temperature, and concentration data is done using MATLAB, while generating the streamlines is performed with MATHEMATICA.