Study of MHD SWCNT-Blood Nanofluid Flow in Presence of Viscous Dissipation and Radiation Effects through Porous Medium

In this analysis, a computational study is conducted to examine the two-dimensional flow of an incompressible MHD SWCNT-blood nanofluid, saturated mass and porous medium .In addition viscous dissipation, thermal radiation taken into consideration. We developed mathematical model useful boundary intensity approximations diminish structure partial differential equations based on fluid for blood-based SWCNT underflow assumptions. Converted by applying corresponding transformations arrive at ODE’s. The above results are solved numerically Runge-Kutta 4th order technique. Noticed that there desirable conformity when interpolated with numerical one. effects exhibited velocity nanofluid enhanced defined standards viscosity parameter. Rise in temperature various parameters like Prandtl number, Eckert slip parameter applied SWCNT-blood. impact discussed graphically, our tabulated along illustrations. design concepts, such as Nusselt quantity local skin friction, conform analytical approach. Velocity reductions increase CNT’s volume fraction, whereas enhancement blood temperature, noted, which directed rise heat transfer rates.