Computational analysis of viscous dissipation and Darcy-Forchheimer porous medium on radioactive hybrid nanofluid

In the disciplines of engineering and research, the most demanding uses of nanofluids are of great interest. The use of nanotechnology in current science encouraged scholars to investigate nanofluid models from several perspectives. The main idea of the existing research is to describe the impacts of Darcy-Forchheimer flow of hybrid nanofluid and single nanofluid fluid through a slippery nonlinear, non-uniform starching surface. These nanofluids are developed by submerging different nanoparticles Zirconium dioxide and Aluminum in Kerosene Oil base fluid. The effects of Cattaneo-Christov (C-C) heat flow and radiative flux are examined in this work. Furthermore, radiative, heat source/sink, and dissipation of viscosity impacts are taken into account. This research use mathematical modelling to create and renovate a system of PDEs for fluid flow based on a few standard ones. The produced nonlinear framework is numerically calculated within the shooting approach using the bvp4c solver provided in the computational MATLAB software. When compared to typical profiles, the nature of a range of criteria is visually presented and analyzed in depth. © 2021 The Authors