Tangent Hyperbolic Fluid Flow under Condition of Divergent Channel in the Presence of Porous Medium with Suction/Blowing and Heat Source: Emergence of the Boundary Layer

Int. J. Math. Math. Sci. Pub Date : 2023-06-30 DOI:10.1155/2023/6282130

S. Choudhary, Prasun Choudhary, P. Balachandra

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Abstract

A boundary layer’s appearance in a diverging permeable channel for a non-Newtonian hyperbolic tangent fluid with heat transfer in the availability of a heat source and suction or injection is investigated. By controlling backflow, nonlinearly associated ODEs are derived from flow-regulating PDEs, and the restrictions under which the formation of a boundary layer for tangent hyperbolic fluid emerges are investigated. It is obtained that mass suction is an expression of the Hartmann number, porosity parameter, and power law index parameter, and when it surpasses a specific quantity, flow within a boundary layer is conceivable. “Bvp4c,” a MATLAB solver, is used to obtain numerical solutions of flow problem, and for validation of results obtained via Bvp4c, a comparison is made with the methodology of the Runge–Kutta fourth order. As the Weissenberg number enhances, flow in a boundary layer decreases. Furthermore, radiation and heat source parameters have a significant influence on the overall temperature pattern, and as the findings, the thermal boundary layer enhances.

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有吸力/吹风和热源的多孔介质存在下发散通道条件下切线双曲流体流动:边界层的出现

研究了非牛顿双曲切线流体在热源可用性和吸力或注入条件下传热的发散渗透通道中边界层的外观。通过控制回流，从流动调节偏微分方程推导出非线性关联偏微分方程，并研究了切线双曲流体边界层形成的限制条件。得到质量吸力是Hartmann数、孔隙度参数和幂律指数参数的表达式，当质量吸力超过一定数值时，边界层内的流动是可以想象的。利用MATLAB求解器“Bvp4c”对流动问题进行了数值求解，并与龙格-库塔四阶方法进行了比较，验证了求解结果的正确性。随着Weissenberg数的增大，边界层内的流动减小。此外，辐射和热源参数对整体温度格局有显著影响，并且热边界层增强。

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Int. J. Math. Math. Sci.

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