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Numerical heat featuring in radiative convective ternary nanofluid under induced magnetic field and heat generating source

Adnan Abbasi, Waseem Abbas, Aisha M. Alqahtani, Zafar Mahmood, Sid Ahmed Ould Beinane, Muhammad Bilal

2024International Journal of Modern Physics B20 citationsDOI

Abstract

The study of nanoliquid characteristics and their heat performance have attracted the interest of engineers. These engineered fluids have high thermal conductivity due to which such liquids are reliable for different engineering applications including heating/cooling of buildings, thermal and mechanical engineering, etc. Therefore, the current research design provides a new ternary nanoliquid model for the heat transport process under induced magnetic field effects, mixed convection, heating source and thermal radiations. The modeling has been done by implementing the ternary fluid characteristics and supportive transformations and then for results simulation; bvp4c is coded successfully. It is scrutinized that a higher inductive magnetic field (0.1–0.4) and nanoparticles amount (0.01–0.07) are better to resist the movement while the wedge parameter ([Formula: see text] promotes it. By promoting the heating source, Eckert and [Formula: see text], the heat transfer process is observed rapidly while the mixed convective number [Formula: see text] controls it. Further, the particular used ternary nanoliquid is examined and found to be good for cooling purposes.

Topics & Concepts

NanofluidTernary operationMagnetic fieldRadiative transferMaterials scienceConvectionRadiative coolingThermal radiationRadiant heatMechanicsConvective heat transferThermodynamicsPhysicsHeat transferOpticsComputer scienceComposite materialQuantum mechanicsProgramming languageNanofluid Flow and Heat TransferHeat Transfer MechanismsSolar Thermal and Photovoltaic Systems
Numerical heat featuring in radiative convective ternary nanofluid under induced magnetic field and heat generating source | Litcius