Scrutiny of nanoscale heat transport with ion-slip and hall currenton ternary MHD cross nanofluid over heated rotating geometry

Abstract

SignificanceThermal engineering is facing energy consumption issue, to handle this pointwe need to enhance the thermal conductivity of base fluid because low thermal conductivity causes to poor heat dissipation, insufficient temperature control, high energy consumption and Limited applications. To overcome this issue nanoparticle are added in base fluid. PurposeThis attempt examines the scrutiny of nanoscale heat transport with ion-slip and hall current on Ternary MHD Cross nanofluid over heated rotating geometry. This attempt involves three nanoparticles which are silver, copper and graphene oxide. Inclined magnetic field and chemical process effects are imposed also. MethodologyGenerated PDEs are transformed into ODEs and numerical simulations areperformed using the methodology of spectral relaxationtechnique to fetch the numerical results. FindingsAugmented values of φGO,φAg,φCu enhance the skin friction of ternary hybrid Cross nanofluid and rate of heat transport is augmented by 9%.Numerical augmented values of φGO,φAg,φCu enhanced the skin friction coefficient and Hall current parameter makes enhancement in velocity of ternary hybrid cross nanoliquid.