A comparative thermal investigation for modified hybrid nanofluid model (Al2O3–SiO2–TiO2)/(C2H6O2) due to curved radiated surface

Abstract

The nanofluids containing more two different types of nanoparticles with suspension of base fluids is referred to hybrid nanofluids. The modified class of hybrid type nanomaterials is new impressive category of nanofluid model which obtained with suspension of base fluid into more than two different types of nanoparticles. The heating influence and capacitance of modified hybrid nanoparticles is more impressive as compared to hybrid model and traditional nanofluid model. Following such motivations in mind, current exploration reports the comparative thermal inspection of three types of nanoparticles like aluminium oxide ( A l 2 O 3 ) , silicon dioxide ( S i O 2 ) and titanium dioxide ( T i O 2 ) with suspension of base particles along with ethylene glycol ( C 2 H 6 O 2 ) base fluid. The flow pattern for such nanoparticles flow is observed due to curved surface comprising the stagnation point flow. The Casson fluid model is used to identify the rheological impact and base fluid characterization. The nonlinear radiation impact is also utilized to modify the model. The Keller box numerical outcomes against the developed set of equations are obtained. A comparative investigation for the suspension of modified hybrid nanomaterial ( A l 2 O 3 + S i O 2 + T i O 2 − C 2 H 6 O 2 ) is inspected.