Hall current effect on molybdenum disulfide (MoS2)-engine oil (EO) based MHD nanofluid flow in a moving plate

Abstract

In the present scenario, the role of nanotechnology is vital for better fuel capability with machines that utilise engine oil based nanoparticles and decreasing machine dissolves. The present paper analyzes the impact of Hall current on MHD nanofluid motion past in a rotation frame. For the base fluid, we have considered the Brinkman-type engine oil Interaction of thermal radiation, chemical reaction, and heat source also enhances the thermophysical properties of heat transfer phenomena. The solution of the governing boundary value problem is carried out analytically employing the Laplace transform technique. However, the influences of physical parameters that characterise the flow phenomena are obtained and presented via graphs. The numerical evaluation of the coefficients of engineering interest is displayed through tables and the validation of the present solution with earlier studies is obtained in a particular case. Finally, the conclusive remarks are elaborated in the results and discussion section.