Entropy Generation in MHD Radiative Flow of CNTs Casson Nanofluid in Rotating Channels with Heat SourceSink

Abstract EN

We presented the applications of entropy generation for SWCNTs and MWCNTs based on kerosene oil for Casson nanofluid flow by rotating channels.

Kerosene oil has advanced thermal conductivity and exclusive features and has a lot of practical uses due to its unique behavior.

That is why we have used kerosene oil as a based fluid.

For the entropy generation second law of thermodynamics is applied and implemented for the nanofluid transport mechanism.

In the presence of magnetic field, the effects of thermal radiations and heat source/sink on the temperature profiles are studied.

The fluid flow is supposed in steady state.

With the help of suitable similitude parameters, the leading equations have been transformed to a set of differential equations.

The solution of the modeled problem has been carried out with the homotopic approach.

The physical properties of carbon nanotubes are shown through tables.

The effects of the imbedded physical parameters on the velocities, temperature, entropy generation rate, and Bejan number profiles are investigated and presented through graphs.

Moreover, the impact of significant parameters on surface drag force and heat transfer rate is tabulated.