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Unsteady squeezing flow of magnetic hybrid nanofluids within parallel plates and entropy generation

Himanshu Upreti, Alok Kumar Pandey, Manoj Kumar

2020Heat Transfer100 citationsDOI

Abstract

Abstract Nowadays, due to the novel thermal effectiveness, a new class of fluid, named “hybrid nanofluid,” is used. It has significant applications in domestic and industrial fields. In this study, we investigated the entropy generation and heat transfer of unsteady squeezing magnetic hybrid nanofluid flow between parallel plates by considering heat source/sink and thermal radiation. In this analysis, carbon nanotubes (CNTs) (single‐walled carbon nanotube and multiwalled carbon nanotube) are considered as nanoparticles that are dispersed in water‐ethylene glycol (EG) mixtures (ie, 70%W + 30%EG and 50%W + 50%EG). For the analysis of the physical behavior of hybrid nanofluids, new models related to hybrid nanofluids are incorporated. From this study, it has been observed that as the hybrid nanofluids moved away from the surface, the entropy generation outlines accelerated with an increase in magnetic field values. Moreover, an increase in the volume fraction of CNTs, the thermal conductivity of 50%W + 50%EG + CNTs hybrid nanofluid is greater than 70%W + 30%EG + CNTs hybrid nanofluid.

Topics & Concepts

NanofluidMaterials scienceCarbon nanotubeThermal conductivityEthylene glycolHeat transferVolume fractionThermalNanotechnologyComposite materialNanoparticleThermodynamicsChemical engineeringPhysicsEngineeringNanofluid Flow and Heat TransferHeat Transfer MechanismsHeat Transfer and Optimization
Unsteady squeezing flow of magnetic hybrid nanofluids within parallel plates and entropy generation | Litcius