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Three-dimensional unsteady flow of second-grade magnetic nanofluid with KKL correlation model

Publication Type : Journal Article

Publisher : World Scientific Publishing Company

Source : International Journal of Modern Physics B Volume 36 Issue 27 Pages 2250188, 2022

Url : https://www.worldscientific.com/doi/abs/10.1142/S0217979222501880

Campus : Bengaluru

Year : 2022

Abstract : The flow of viscoelastic fluid owing to stretching surfaces (SSs) has become well-known among the demanding study fields of fluid mechanics due to its numerous practical applications. As a result, the major goal of this work is to scrutinize the three-dimensional (3D) unsteady flow of second-grade nanofluid. A magnetic field influences the fluid when an indefinitely long, straight wire delivers an electric current. Thermal radiation is taken into consideration while studying heat transmission characteristics. The effective thermal conductivity of nanofluid flow is scrutinized by adopting Koo–Kleinstreuer–Li (KKL) nanofluid model. Through suitable transformations, relevant flow expressions are converted to ordinary differential equations (ODEs). The numerical approach Runge–Kutta–fourth–fifth Fehlberg’s order method (RKF-45) with shooting technique is used to solve the generated ODEs. Further, it was noted that the CPU time to estimate the solutions of flow fields was less than (2.23 s). The outcome reveals that the rise in values of the time-dependent parameter positively impacts both velocity and thermal profiles. The improved heat transport is seen for augmented values of radiation and ferromagnetic interaction parameters.

Cite this Research Publication : MC Jayaprakash, K Sarada, RJ Punith Gowda, Raman Kumar, Mohammed Fareeduddin, Talib K Ibrahim, S Suresha, R Naveen Kumar, "Three-dimensional unsteady flow of second-grade magnetic nanofluid with KKL correlation model", International Journal of Modern Physics B Volume 36 Issue 27 Pages 2250188, 2022

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