Publication

Abstract : This research examines the influence of heat source/sink and activation energy on the ternary nanoliquid flow due to the rotating cone with the wall‐deforming boundary circumstances in porous media. The suspension of the differently shaped nanoparticles in the base liquid is also considered in the modelling. The development of the boundary layer structure may be determined by analysing von Karman's classic deformable revolving disk flow. Therefore, the engineering community can easily identify the significant physical characteristics of a cone with a certain apex angle by using a multiplication factor associated with the deformable spinning disk flow. The governing partial differential equations are converted to ordinary differential equations with the help of similarity variables. The obtained equations are numerically solved using the Galerkin finite element technique. Graphical depictions illustrate the impact of various dimensionless factors on different profiles. The influence of the deformation‐to‐rotation ratio on fluid velocity profiles is shown for both stretching and shrinking scenarios. As the heat source/sink parameter values increase, the temperature rises. The concentration profile decays for the chemical reaction parameter and intensifies for the activation energy parameter.