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Numerical Simulation of Mixed Convection Squeezing Flow of a Hybrid Nanofluid Containing Magnetized Ferroparticles in 50%:50% of Ethylene Glycol–Water Mixture Base Fluids Between Two Disks With the Presence of a Non-linear Thermal Radiation Heat Flux

dc.contributor.authorNisar, Kottakkaran Sooppy
dc.contributor.authorKhan, Umair
dc.contributor.authorZaib, A.
dc.contributor.authorKhan, Ilyas
dc.contributor.authorBaleanu, Dumitru
dc.contributor.authorID56389tr_TR
dc.date.accessioned2022-08-26T11:10:44Z
dc.date.available2022-08-26T11:10:44Z
dc.date.issued2020
dc.departmentÇankaya Üniversitesi, Fen - Edebiyat Fakültesi, Matematik Bölümüen_US
dc.description.abstractFerroliquids are an example of a colloidal suspension of magnetic nanomaterials and regular liquids. These fluids have numerous applications in medical science such as cell separation, targeting of drugs, magnetic resonance imaging, etc. The hybrid nanofluid is composed by scattering the magnetic nanomaterial of more than one type nanoparticles suspended into the base fluid. It has different scientific applications such as heat dissipation, dynamic sealing, damping, etc. Owing to the vast ferrofluid applications, the time-dependent squeezed flow of hybrid ferroliquids under the impact of non-linear radiation and mixed convection within two disks was explored for the first time in this analysis. Here, the cobalt and magnetite ferrofluids are considered and scattered in a 50%:50% mixture of water–EG (ethylene glycol). The similarity technique is used to reduce the leading PDEs into coupled non-linear ODEs. The transmuted equations together with recommended boundary restrictions are numerically solved via Matlab solver bvp4c. The opposing and assisting flows are considered. The impacts of an emerging parameter on fluid velocity and temperature field of hybrid ferroliquids are examined through the different graphical aids. The results showed that the opposite trend is scrutinized due to the magnetic influence on the temperature and velocity in the case of assisting and opposing flows. The velocity augments due to the volume fraction of nanoparticles in the assisting flow and declines in the opposing flow, while the opposite direction is noticed in the temperature field. © Copyright © 2020 Nisar, Khan, Zaib, Khan and Baleanu.en_US
dc.description.publishedMonth9
dc.identifier.citationNisar, Kottakkaran Sooppy...et al. (2020). "Numerical Simulation of Mixed Convection Squeezing Flow of a Hybrid Nanofluid Containing Magnetized Ferroparticles in 50%:50% of Ethylene Glycol–Water Mixture Base Fluids Between Two Disks With the Presence of a Non-linear Thermal Radiation Heat Flux", Frontiers in Chemistry, Vol. 8.en_US
dc.identifier.doi10.3389/fchem.2020.00792
dc.identifier.issn2296-2646
dc.identifier.urihttp://hdl.handle.net/20.500.12416/5776
dc.identifier.volume8en_US
dc.language.isoenen_US
dc.relation.ispartofFrontiers in Chemistryen_US
dc.rightsinfo:eu-repo/semantics/openAccessen_US
dc.subjectDisksen_US
dc.subjectMagnetize Hybrid Ferrofluidsen_US
dc.subjectMixed Convectionen_US
dc.subjectNon-Linear Radiationen_US
dc.subjectSqueeze Flowen_US
dc.titleNumerical Simulation of Mixed Convection Squeezing Flow of a Hybrid Nanofluid Containing Magnetized Ferroparticles in 50%:50% of Ethylene Glycol–Water Mixture Base Fluids Between Two Disks With the Presence of a Non-linear Thermal Radiation Heat Fluxtr_TR
dc.titleNumerical Simulation of Mixed Convection Squeezing Flow of a Hybrid Nanofluid Containing Magnetized Ferroparticles in 50%:50% of Ethylene Glycol–water Mixture Base Fluids Between Two Disks With the Presence of a Non-Linear Thermal Radiation Heat Fluxen_US
dc.typeArticleen_US
dspace.entity.typePublication

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