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Numerical computation of melting heat transfer in nonlinear radiative flow of hybrid nanofluids due to permeable stretching curved surface

Hassan Waqas, Faisal Fareed Bukhari, Umar Farooq, M.S. Alqarni, Taseer Muhammad

2021Case Studies in Thermal Engineering39 citationsDOIOpen Access PDF

Abstract

The current study investigates the hydro-magnetic transport of hybrid nanoliquids by a permeable extendable curved sheet. Furthermore, the Lorentz force properties that cause magnetic field interaction with the motion of nanoliquid are investigated. To examine the flow's thermodynamic integrity, thermally radiation and heat sink/source are included. The obtained expressions are computed by using RK-4 approach and data indicates differences for both the hybrid nanoliquids and conventional nanoliquid. Tables and graphs are used to investigate the impact of relevant numbers on the flow fields. To the best of our knowledge, no such research that sheds light on the aforementioned concerns has been submitted yet. As a result, we believe that our one-of-a-kind technique will serve as a foundation for gathering vital information from such flow, therefore assisting with a variety of technological difficulties.

Topics & Concepts

Lorentz forceMechanicsHeat transferNanofluidMagnetic fieldComputationFlow (mathematics)Nonlinear systemRadiative transferMaterials scienceThermal radiationFluid motionMagnetohydrodynamicsComputer scienceClassical mechanicsThermodynamicsPhysicsOpticsQuantum mechanicsAlgorithmNanofluid Flow and Heat TransferHeat Transfer MechanismsHeat Transfer and Optimization
Numerical computation of melting heat transfer in nonlinear radiative flow of hybrid nanofluids due to permeable stretching curved surface | Litcius