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Computational investigation of non-uniform magnetic field on thermal characteristic of nanofluid stream inside 180∘ elbow pipe

Yu‐Ming Chu, Rasoul Moradi, Amir Musa Abazari

2021Modern Physics Letters B22 citationsDOI

Abstract

The thermal efficiency of the heat exchanger is substantial in chemical and mechanical systems. The presence of the non-homogeny magnetic field considerably enhances the heat rate of nanofluid stream. In this exploration, the presence of the non-uniform magnetic intensity on the heat rate of nanofluid stream is noted inside the [Formula: see text] elbow pipe. FVM is used to model the flow characteristics and temperature distribution through the [Formula: see text] elbow pipe. Our major focus is to demonstrate the main influences of the non-uniform FHD on flow stream and heat transfer of nanofluid in various inlet velocities and magnetic intensities. Achieved outcomes display that growing the magnetic intensity from 1e + 6 to 4e + 6 enhances the average Nusselt number about 30%. Our findings show that increasing the inlet velocity to Re = 100 decreases the magnetic effects about 17% on the heat transfer growth.

Topics & Concepts

NanofluidNusselt numberMaterials scienceHeat transferMagnetic fieldMechanicsIntensity (physics)ThermalInletThermodynamicsMechanical engineeringReynolds numberPhysicsOpticsQuantum mechanicsEngineeringTurbulenceNanofluid Flow and Heat TransferHeat Transfer MechanismsSolar Thermal and Photovoltaic Systems
Computational investigation of non-uniform magnetic field on thermal characteristic of nanofluid stream inside 180∘ elbow pipe | Litcius