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Impact of Newtonian Heating via Fourier and Fick’s Laws on Thermal Transport of Oldroyd-B Fluid by Using Generalized Mittag-Leffler Kernel

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dc.contributor.author Chen, Chunxia
dc.contributor.author Rehman, Aziz Ur
dc.contributor.author Riaz, Muhammad Bilal
dc.contributor.author Jarad, Fahd
dc.contributor.author Sun, Xiang-E
dc.date.accessioned 2024-03-15T12:34:44Z
dc.date.available 2024-03-15T12:34:44Z
dc.date.issued 2022-04-07
dc.identifier.citation Chunxia Chen;...et.al. (2022). "Impact of Newtonian Heating via Fourier and Fick’s Laws on Thermal Transport of Oldroyd-B Fluid by Using Generalized Mittag-Leffler Kernel", Symmetry, Vol.17, No.766. tr_TR
dc.identifier.uri http://hdl.handle.net/20.500.12416/7592
dc.description.abstract In this manuscript, a new approach to study the fractionalized Oldroyd-B fluid flow based on the fundamental symmetry is described by critically examining the Prabhakar fractional derivative near an infinitely vertical plate, wall slip condition on temperature along with Newtonian heating effects and constant concentration. The phenomenon has been described in forms of partial differential equations along with heat and mass transportation effect taken into account. The Prabhakar fractional operator which was recently introduced is used in this work together with generalized Fick’s and Fourier’s law. The fractional model is transfromed into a non-dimentional form by using some suitable quantities and the symmetry of fluid flow is analyzed. The non-dimensional developed fractional model for momentum, thermal and diffusion equations based on Prabhakar fractional operator has been solved analytically via Laplace transformation method and calculated solutions expressed in terms of Mittag-Leffler special functions. Graphical demonstrations are made to characterize the physical behavior of different parameters and significance of such system parameters over the momentum, concentration and energy profiles. Moreover, to validate our current results, some limiting models such as fractional and classical fluid models for Maxwell and Newtonian are recovered, in the presence of with/without slip boundary wall conditions. Further, it is observed from the graphs the velocity curves for classical fluid models are relatively higher than fractional fluid models. A comparative analysis between fractional and classical models depicts that the Prabhakar fractional model explains the memory effects more adequately. tr_TR
dc.language.iso eng tr_TR
dc.relation.isversionof 10.3390/sym14040766 tr_TR
dc.rights info:eu-repo/semantics/closedAccess tr_TR
dc.subject Prabhakar Fractional Operator tr_TR
dc.subject Laplace Transformation tr_TR
dc.subject Wall Slip Conditions tr_TR
dc.subject Newtonian Heating tr_TR
dc.subject Mittag-Leffler Kernel tr_TR
dc.subject Physical Parameters tr_TR
dc.title Impact of Newtonian Heating via Fourier and Fick’s Laws on Thermal Transport of Oldroyd-B Fluid by Using Generalized Mittag-Leffler Kernel tr_TR
dc.type article tr_TR
dc.relation.journal Symmetry tr_TR
dc.contributor.authorID 234808 tr_TR
dc.identifier.volume 14 tr_TR
dc.identifier.issue 766 tr_TR
dc.contributor.department Çankaya Üniversitesi, Fen Edebiyat Fakültesi, Matematik Bölümü tr_TR


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