Effects of different fins on Maxwell liquid under hybrid surveys of magnetic and porous material in presence of radiation factors

Abstract

This article examines the effects of Maxwell Nanoliquid devolution with ethylene glycol nanoparticles over the three-sided, chamfer blades and rectangular. The novelty of this essay is the use of a nanofluid with a Ball density to pass through fins mounted on a plate with different shapes behind each other, which is being drawn at a moderate velocity from both sides and parameters such as nanofluid velocity and magnetism of nanofluids are 2D and displayed it comes in. The momentous purpose of this article is to adumbration the alterations in the physical parameters of ethylene glycol nanofluid circa the sheet drawn by the FEM math strategy and also to enhance the heat transfer by using fins of disparate matters and models on this sheet and utilization RSM method optimally. The finite Element Method is applied for computed differential equations. The second part of the essay iterates on the using RSM method in the Design-Expert software. With growing magnetic pressure currents and the formation of magnetic vortices, the temperature, and velocity of the nanofluid lower sharply. In general, the magnetic property decreases in places where the heat is high and the pressure drop is low.