A polynomial regression study of the tri-Boger nanofluid with Soret and Dufour influences due to disk/cone system

The current work focuses on novelty features of Boger fluid in mass and heat energy on a cone and disk using magnetic field and electric field. The motion of nanofluid is occupied conical gap among disk and cone. The correlation named as a trihybrid nanofluid is used for predict the thermal performance. The mechanisms of stagnation point flow is considered. Heat energy is experienced by heat source/sink and thermal radiation. The influences based on Diffusion-thermo are used. The novelty work reveals that neither work done on the analysis of Boger fluid on cone and dis in the presence of trihybrid nanofluid. The governing equations are transformed into system of ODEs using variables (transformations). Heat energy and flow on disk and cone for Yamada Ota model is greater than for Xue model for Heat energy and flow on disk and cone. Increased the strength of Dufour number enhances the concentration field for cone and disk.