Abstract
This article deals with three-dimensional rotating flow of nanomaterial in the presence of activation energy and thermal radiation embedded in non-Darcian porous medium. Convection of heat and mass exchange is given due consideration. The novel attributes of Brownian motion and thermophoresis are accounted. The resulting differential frameworks have been solved by NDSolve method. The graphical representations inspect the results of different sundry variables. Heat and mass transfer rates are additionally processed and analyzed. Our results depict that the temperature and concentration are enhanced for larger values of porosity and Forchheimer numbers.
•Three-dimensional rotating flow of nanofluid is modeled.•Flow saturating porous medium obeys Darcy–Forchheimer model.•Nanofluid model consists of Brownian motion and thermophoresis.•Binary chemical reaction and activation energy are utilized.•Computations are made through NDSolve method.