On the implication of exponentially decaying internal heat generation on mixed convection flow from a vertical porous plate influenced by second‐order thermal and momentum slips

Basant K. Jha, Gabriel Samaila
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Abstract

This article contains vital information on the internal heat generation effect on mixed convection slip flow past a vertical plate. The partial differential equations were first simplified to ordinary differential equations through similarity transformation. The simplified first‐order differential equations were integrated with Maple Software 2022 after utilizing the shooting technique. One of the most important discoveries is that the internal heat generation acts as a barrier to stop heat from flowing from the left to right plate edge. However, this could be averted by considering strong mixed convection to covet away the heat conducted through the left surface of the plate and the internal heat generated. However, for weak mixed convection, the movement of the fluid from the left to the right surface of the plate is achievable even with minimal internal heat generation. Since the right surface temperature is warmer (higher) than the left surface, the flow properties, in this case, are also affected by the internal heat generation, which also causes the reverse of heat flow from the plate. Particle injection could also be used to avert unwanted reversed flow for various momentum slip conditions considered. There is a marginal reverse flow at the plate surface, which may be related to the flow's mixed convective characteristics. Due to the plate surface's reinforcement, the rise in flow formation caused by the momentum slip parameter is more substantial close to the plate.
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指数衰减的内部发热对受二阶热量和动量滑移影响的垂直多孔板混合对流的影响
本文包含关于流经垂直板的混合对流滑移流的内部发热效应的重要信息。首先通过相似变换将偏微分方程简化为常微分方程。利用拍摄技术将简化后的一阶微分方程与 Maple 软件 2022 集成。最重要的发现之一是,内部发热起到了阻止热量从左侧板边缘流向右侧板边缘的作用。不过,如果考虑到强混合对流,就可以避免这种情况,因为强混合对流可以带走通过板左表面传导的热量和内部产生的热量。然而,对于弱混合对流,即使内部产生的热量极少,流体也可以从板的左表面流向右表面。由于右表面温度比左表面温度高,在这种情况下,流动特性也会受到内部发热的影响,这也会导致热量从板上反向流动。在所考虑的各种动量滑移条件下,粒子喷射也可用于避免不必要的反向流动。板表面存在边缘反向流,这可能与流动的混合对流特性有关。由于板面的强化作用,动量滑移参数引起的流动形成的上升在靠近板面的地方更为明显。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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