Abstract

Fractal-fractional derivative is a new class of fractional derivative with power Law kernel which has many applications in real world problems. This operator is used for the first time in such kind of fluid flow. The big advantage of this operator is that one can formulate models describing much better the systems with memory effects. Furthermore, in real world there are many problems where it is necessary to know that how much information the system carries. To explain the memory in a system fractal-fractional derivatives with power law kernel is analyzed in the present work. Keeping these motivation in mind in the present paper new concept of fractal-fractional derivative for the modeling of couple stress fluid (CSF) with the combined effect of heat and mass transfer have been used. The magnetohydrodynamics (MHD) flow of CSF is taken in channel with porous media in the presence of external pressure. The constant motion of the left plate generates the CSF motion while the right plate is kept stationary. The non-dimensional fractal-fractional model of couple stress fluid in Riemann–Liouville sense with power law is solved numerically by using the implicit finite difference method. The obtained solutions for the present problem have been shown through graphs. The effects of various parameters are shown through graphs on velocity, temperature and concentration fields. The velocity, temperature and concentration profiles of the MHD CSF in channel with porous media decreases for the greater values of both fractional parameter alpha and fractal parameter beta respectively. From the graphical results it can be noticed that the fractal-fractional solutions are more general as compared to classical and fractional solutions of CSF motion in channel. Furthermore, the fractal-fractional model of CSF explains good memory effect on the dynamics of couple stress fluid in channel as compared to fractional model of CSF. Finally, the skin friction, Nusselt number and Sherwood number are evaluated and presented in tabular form.

Highlights

  • Fractional calculus is used to explain many real world problems with better memory effect

  • Arif et al.7 investigated couple stress fluid (CSF) in channel. In this study they generalized the classical model of CSF into time fractional models of AB and CF and compare their results. ­Podlubny8 discussed fractional differential equations and their uses in different physical phenomenon

  • The present paper is focused to study the applications of fractal and fractional derivative on the unsteady MHD CSF in channel with power law kernel

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Summary

Introduction

Fractional calculus is used to explain many real world problems with better memory effect. Akgul and S­ iddique12 investigated the fluid flow in channel with MHD effect using the idea of fractal-fractional derivatives on the CSF. This section provide fractal-fractional derivative model of unsteady MHD generalized Couette flow of CSF in channel with embedded in porous media with power law kernel.

Results
Conclusion

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