Abstract
Fractional derivatives have been proven to showcase a spectrum of solutions that is useful in the fields of engineering, medical, and manufacturing sciences. Studies on the application of fractional derivatives on fluid flow are relatively new, especially in analytical studies. Thus, geometrical representations for fractional derivatives in the mechanics of fluid flows are yet to be discovered. Nonetheless, theoretical studies will be useful in facilitating future experimental studies. Therefore, the aim of this study is to showcase an analytical solution on the impact of the Caputo-Fabrizio fractional derivative for a magnethohydrodynamic (MHD) Casson fluid flow with thermal radiation and chemical reaction. Analytical solutions are obtained via Laplace transform through compound functions. The obtained solutions are first verified, then analysed. It is observed from the study that variations in the fractional derivative parameter, α, exhibits a transitional behaviour of fluid between unsteady state and steady state. Numerical analyses on skin friction, Nusselt number, and Sherwood number were also analysed. Behaviour of these three properties were in agreement of that from past literature.
Highlights
Non-Newtonian fluids have been recognised as one of the most popular research topics in the field of fluid mechanics and in production engineering, chemical engineering, as well as the manufacturing process
A Casson fluid behaves such that it will act solid when sheer stress applied is less than its yield stress
The Casson fluid model was first introduced by Casson [4] in 1959 whilst investigating the rheological data of pigment ink in a printer
Summary
Non-Newtonian fluids have been recognised as one of the most popular research topics in the field of fluid mechanics and in production engineering, chemical engineering, as well as the manufacturing process. Ketchup would flow when shaken harder or corn starch would solidify when slapped at full speed. These characteristics are what classify as a non-Newtonian fluid. Baranovskii and Artemov [2] did a study by proving the existence of global weak solutions on the system of partial differential equations for an unsteady flow of Oldroyd fluid. One of the most popular non-Newtonian fluids is the Casson fluid. A Casson fluid behaves such that it will act solid when sheer stress applied is less than its yield stress. When sheer stress applied is more that its yield stress the fluid will be in motion [3]. Examples of recent research on Casson fluids can be found
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