Influence of variable viscosity on 3-D MHD radiative cross nanofluid flow over a biface region

This article aims to scrutinize the influence of variable viscosity and thermic heat on the three-dimensional hydromagnetic flow of nano and hybrid nanofluids past an elongated surface. We considered water as a base liquid suspended with Molybdenum disulfide (MoS2) and Titanium dioxide (TiO2) nanoparticles for this study. The governing PDEs changed as ODEs with the assistance of the right transmutations. The elucidation of the problem was attained by adopting the bvp5c Matlab package. The postures of influential constraints on the movement and energy fields are demonstrated with the assistance of graphs. Simultaneous solutions are presented for water + TiO2 and water + TiO2 + MoS2 cases. It is substance mentioning that the energy transfer rate of the water + TiO2 + MoS2 combination is high compared with the water + TiO2 combination.