Unsteady MHD CNTs-blood Nanofluid Flow and Heat Transfer under the Effects of Viscous Dissipation, Resistive heating, and Thermal Radiation over a Sensor Surface Accompanied by Variable Viscosity

The numerical scrutiny of unsteady incompressible magneto-hydrodynamics (MHD) for blood flow in carbon nano tubes (CNTs), past a sensor surface has been presented under the influences viscous dissipation, resistive heating, and thermal radiation. variables without having dimensions have deployed to alter reigning equations, which are non-linear, coupled partial differential equations (PDEs), into system non-linear ordinary (ODEs). bvp4c tool MATLAB software exercised obtain solutions dimensionless governing system. graphs tables formed SWCNT-blood MWCNT-blood nano-liquids velocity temperature profiles versus unsteadiness parameter, magnetic field inclination angle, radiation Eckert number. It observed that profile nanofluid is higher than except parameter However, reverse trend noted both nanofluids all other parameters. comparison tables, values local skin friction factor Nusselt number, various parameters, match with outcomes previously reported data validate employed technique solution.