Mathematical Analysis of MHD CNT's of Rotating Nanofluid Flow Over a Permeable Stretching Surface

We considered three-dimensional MHD rotating nanofluid flow over a permeable stretching surface. The single-wall carbon nanotube and multi-wall carbon nanotube with base fluid as water are taken into this account. The MHD applied normal to flow of fluid at rotating permeable stretching sheet. Under the above assumptions, the mathematical model is developed under the flow of fluids. After using the boundary layer approximations, the partial differentials are developed. The partial differential equations are reduced by means of similarity transformations in terms of ordinary differential equations. The ordinary differential equations are solved through numerical technique. The involving physical parameters, namely magnetic parameter M, parameter of porosity lambda, rotating parameter Omega, inertial coefficient F-r and volume fraction phi, are reduced through graphs as well as numerical results through tabular form.

Automated summary

This study investigates three-dimensional rotating nanofluid flow over a permeable stretching surface under the influence of magnetic field. The mathematical model is solved numerically, and the reduction of physical parameters is obtained through numerical results in graphical and tabular forms.