Abstract
In current modeling, nanomaterial steady flow within a rotational system has been analyzed via Runge-Kutta method. The lower plate is melting surface and Lorentz force is applied to control the nanoparticle migration. Rotation, viscosity, magnetic and melting parameters as well as concentration of nanomaterial are scrutinized factors and distribution of temperature and velocity. Outputs demonstrate that temperature enhances as a result of enhancing in concentration of nanofluid and reverse treatment was observed for melting parameter. Augmenting rotation parameters leads to increase in rotational velocity (C) 2019 Elsevier B.V. All rights reserved.