Heat transfer investigation of the unsteady thin film flow of Williamson fluid past an inclined and oscillating moving plate

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Abstract

This investigation aims at analyzing the thin film flow passed over an inclined moving plate. The differential type non-Newtonian fluid ofWilliamson has been used as a base fluid in its unsteady state. The physical configuration of the oscillatory flow pattern has been demonstrated and especial attention has been paid to the oscillatory phenomena. The shear stresses have been combined with the energy equation. The uniform magnetic field has been applied perpendicularly to the flow field. The principal equations for fluid motion and temperature profiles have been modeled and simplified in the form of non-linear partial differential equations. The non-linear differential equations have been solved with the help of a powerful analytical technique known as Optimal Homotopy Asymptotic Method (OHAM). This method contains unknown convergence controlling parameters C1, C2, C3, ... which results in more efficient and fast convergence as compared to other analytical techniques. The OHAM results have been verified by using a second method known as Adomian Decomposition Method (ADM). The closed agreement of these two methods and the fast convergence of OHAM has been shown graphically and numerically. The comparison of the present work and published work has also been equated graphically and tabulated with absolute error. Moreover, the effect of important physical parameters like magnetic parameter M, gravitational parameter m, Oscillating parameter w, Eckert number Ec and Williamson number We have also been derived and discussed in this article.

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Gul, T., Khan, A. S., Islam, S., Alqahtani, A. M., Khan, I., Alshomrani, A. S., … Muradullah. (2017). Heat transfer investigation of the unsteady thin film flow of Williamson fluid past an inclined and oscillating moving plate. Applied Sciences (Switzerland), 7(4). https://doi.org/10.3390/app7040369

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