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Non-similar solution of Casson fluid flow over a curved stretching surface with viscous dissipation; Artificial neural network analysis

Sami Ul Haq (Department of Mathematics, COMSATS University Islamabad, Islamabad, Pakistan)
Muhammad Bilal Ashraf (Department of Mathematics, COMSATS University Islamabad, Islamabad, Pakistan)
Arooj Tanveer (Department of Mathematics, COMSATS University Islamabad, Islamabad, Pakistan)

Multidiscipline Modeling in Materials and Structures

ISSN: 1573-6105

Article publication date: 3 September 2024

Issue publication date: 28 October 2024

39

Abstract

Purpose

The main focus is to provide a non-similar solution for the magnetohydrodynamic (MHD) flow of Casson fluid over a curved stretching surface through the novel technique of the artificial intelligence (AI)-based Lavenberg–Marquardt scheme of an artificial neural network (ANN). The effects of joule heating, viscous dissipation and non-linear thermal radiation are discussed in relation to the thermal behavior of Casson fluid.

Design/methodology/approach

The non-linear coupled boundary layer equations are transformed into a non-linear dimensionless Partial Differential Equation (PDE) by using a non-similar transformation. The local non-similar technique is utilized to truncate the non-similar dimensionless system up to 2nd order, which is treated as coupled ordinary differential equations (ODEs). The coupled system of ODEs is solved numerically via bvp4c. The data sets are constructed numerically and then implemented by the ANN.

Findings

The results indicate that the non-linear radiation parameter increases the fluid temperature. The Casson parameter reduces the fluid velocity as well as the temperature. The mean squared error (MSE), regression plot, error histogram, error analysis of skin friction, and local Nusselt number are presented. Furthermore, the regression values of skin friction and local Nusselt number are obtained as 0.99993 and 0.99997, respectively. The ANN predicted values of skin friction and the local Nusselt number show stability and convergence with high accuracy.

Originality/value

AI-based ANNs have not been applied to non-similar solutions of curved stretching surfaces with Casson fluid model, with viscous dissipation. Moreover, the authors of this study employed Levenberg–Marquardt supervised learning to investigate the non-similar solution of the MHD Casson fluid model over a curved stretching surface with non-linear thermal radiation and joule heating. The governing boundary layer equations are transformed into a non-linear, dimensionless PDE by using a non-similar transformation. The local non-similar technique is utilized to truncate the non-similar dimensionless system up to 2nd order, which is treated as coupled ODEs. The coupled system of ODEs is solved numerically via bvp4c. The data sets are constructed numerically and then implemented by the ANN.

Keywords

Citation

Ul Haq, S., Ashraf, M.B. and Tanveer, A. (2024), "Non-similar solution of Casson fluid flow over a curved stretching surface with viscous dissipation; Artificial neural network analysis", Multidiscipline Modeling in Materials and Structures, Vol. 20 No. 6, pp. 1078-1102. https://doi.org/10.1108/MMMS-04-2024-0097

Publisher

:

Emerald Publishing Limited

Copyright © 2024, Emerald Publishing Limited

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