The Effectiveness of Mass Transfer in the MHD Upper-Convected Maxwell Fluid Flow on a Stretched Porous Sheet near Stagnation Point: A Numerical Investigation
Abstract:The present inquiry studies the influence of mass transfer in magnetohydrodynamics (MHD) upper-convected Maxwell (UCM) fluid flow on a stretchable, porous subsurface. The governing partial differential equations for the flow problem are reformed to ordinary differential equations through similarity transformations. The numerical outcomes for the arising non-linear boundary value problem are determined by implementing the successive linearization method (SLM) via Matlab software. The accuracy of the SLM is conf… Show more
“…3 and those which is obtained numerically in Fig. 4 by Shahid [41] . Regarding this, it may be pointed out that our exact outcomes and numeric solutions obtained in [41] are in good agreement.…”
Section: Discussionsupporting
confidence: 54%
“…4 by Shahid [41] . Regarding this, it may be pointed out that our exact outcomes and numeric solutions obtained in [41] are in good agreement. Figure 3 Inspection of k 2 on .…”
“…3 and those which is obtained numerically in Fig. 4 by Shahid [41] . Regarding this, it may be pointed out that our exact outcomes and numeric solutions obtained in [41] are in good agreement.…”
Section: Discussionsupporting
confidence: 54%
“…4 by Shahid [41] . Regarding this, it may be pointed out that our exact outcomes and numeric solutions obtained in [41] are in good agreement. Figure 3 Inspection of k 2 on .…”
“…Further, Ibrahim and Negera 27 studied the MHD UCM nanofluid flow in presence of chemically reactive species over a stretchable sheet and showed that for Deborah number, temperature increases and velocity decreases. Recently, a numerical investigation on mass transfer aspect near stagnation point flow past a stretchable surface in MHD UCM fluid has been discussed by Shahid 28 . He calculated results by applying SLM technique with both Gauss‐Lobatto collocation point and Chebyshev interpolating polynomial through MATLAB programming.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, a numerical investigation on mass transfer aspect near stagnation point flow past a stretchable surface in MHD UCM fluid has been discussed by Shahid. 28 He calculated results by applying SLM technique with both Gauss-Lobatto collocation point and Chebyshev interpolating polynomial through MATLAB programming.…”
In the present framework, flow and thermal transport behavior of non-Newtonian viscoelastic fluid induced by stretching/shrinking of the horizontal sheet under the influence of Lorentz force, volumetric heat source/sink, and radiation (assuming optically thick medium) has been investigated. Multiple solutions (Branches) have been predicted numerically using Lie symmetry transformation and Runge Kutta Dormand Prince (RKDP) algorithm-based Shooting method for the different controlling parameters, stretching/shrinking (𝛾 c < −1 < 𝛾 < ∞), and suction (𝛼 c < 𝛼 < ∞) with substantial impact with UCM parameter, 𝛽 > 0. Some of the results have also been compared with MATLAB built-in solvers to validate our in-house code. The deviations in critical (turning) points (𝛽 c , 𝛾 c ) have been noticed for different values of M and 𝛼. The temporal stability analysis is performed for these parameters (𝛽, 𝛾), and the upper (lower) branch is only physically feasible (infeasible). The combined effect on Nusselt number and skin-friction coefficient is also depicted in the form of contour plots. The outcomes from artificial neural network (ANN) using Levenberg-Marquardt algorithm give a preferred estimate for current numerical simulation. In ANN prediction, the optimal number of neurons in the hidden layer is used, having minimum value of RMSE and RMRE with maximum R 2 for different cases of non Newtonian stretching/shrinking sheet. Finally, the results conclude that the applied ANN model can accurately predict the output results.
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