Effectiveness of melting phenomenon in two phase dusty carbon nanotubes (Nanomaterials) flow of Eyring-Powell fluid: Heat transfer analysis

Present research explores the thermal outcomes of Eyring Powell material with decomposition of dusty particles. The heat transfer observations are assessed with carbon nanotubes. The single walled carbon nanotubes (SWCNs) are used to improve the thermal exploration of Eyring Powell dusty material. The problem is further studied with implementation of magnetic force. The expressions of dust particles and Eyring Powell nonlinear model are used to construct the mathematical model. The simulations are justified numerically with shooting method. The graphical impact of parameters is tested. The results show that both phase and dust velocity profile increases for interaction velocity constant and Eyring fluid parameter. The lower variation in phase fluid temperature profile is claimed temperature interaction constant.