An analytic and mathematical synchronization of micropolar nanofluid by Caputo-Fabrizio approach

Nanofluids and the enhancement of heat transfer in real systems have proved to be a widely researched area of nanotechnology; other areas of particular interest to researchers include the improvement of thermal conductivity, thermophoresis phenomenon, dispersion of nanoparticles volume fraction, and few others. Based on the touch of nanotechnology, this study investigates the analytic and mathematical performance of micropolar nanofluid in the enhancement of heat transfer. The base fluid is taken for the purpose of thermal conductivity subject to two types of nanoparticles: copper and silver. The mathematical analysis of the micropolar nanofluid was carried out by invoking the non-integer order derivative and transform methods. By applying a mathematical tool to the equations of micropolar nanofluid, the solutions were explored for temperature, microrotation, and velocity. In order to meet the physical aspects of the problem based on micropolar nanofluid, the comparison of velocity field of micropolar nanofluid for the suspension of ethylene glycol into silver and that of ethylene glycol into copper is made to enhance the rate of heat transfer. (C) 2019 Sharif University of Technology. All rights reserved.