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Rheological behavior of magnetized <i>ZnO – SAE</i> 50 nanolubricant over Riga plate: A theoretical study

Muhammad Riaz, Nargis Khan, Sabir Ali Shehzad

2023Advances in Mechanical Engineering15 citationsDOIOpen Access PDF

Abstract

[Formula: see text] nanolubricant is one of the most important nanolubricants having widespread uses in heat exchange systems and automobiles. It minimizes friction between moving parts and prevents them from corrosion and scrape, improves durability and performance of the system and also minimizes the consumption of fuel. This work investigates the rheological behavior of magnetized [Formula: see text] nanolubricant over moving/stationary Riga plate with viscous dissipation and nonlinear heat generation. The novel features of the current work are the use of [Formula: see text] nanolubricant as a flow fluid across a Riga plate and the application of the Patel model to boost the thermal conductivity of the nanolubricant. The governing system of equations is transformed to nonlinear ODEs and then treated analytically by using HAM. The augmentation in the velocity of nanolubricant [Formula: see text] is observed due to increasing values of Grashof number. The higher values of nonlinear thermal radiation and nonlinear heat generation parameters upsurge the temperature profile. The value of skin friction increases by increasing modified Hartman number and velocity slip parameter while reverse trend is observed by enhancing magnetic parameter. The radiation parameter, temperature dependent heat source parameter and solid volume fraction tend to augment Nusselt number at the Riga surface.

Topics & Concepts

Nusselt numberMaterials scienceNonlinear systemGrashof numberDissipationWork (physics)MechanicsThermal conductivityHeat generationComposite materialThermodynamicsPhysicsReynolds numberTurbulenceQuantum mechanicsNanofluid Flow and Heat TransferHeat Transfer and OptimizationHeat Transfer Mechanisms
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