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首页> 外文期刊>Physica Scripta: An International Journal for Experimental and Theoretical Physics >Thermal performance of partially ionized Eyring-Powell liquid: a theoretical approach
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Thermal performance of partially ionized Eyring-Powell liquid: a theoretical approach

机译:部分电离眼镜粉末的热性能:一种理论方法

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摘要

Heat transport phenomenon in partially ionized non-Newtonian liquid, the Eyring-Powell, in the presence of magnetic field is modeled through mathematical equations of governing laws. The complex coupled set of PDE's are set into dimensionless form and solved by finite element method. Mesh free and convergent solutions are computed. Parametric analysis is done in order to investigate the influence of emerging parameters on the flow and heat transport fluid regime. Hall and ion slip currents have vital role in decreasing the heat dissipation in Eyring-Powell liquid (composed of charges and ions). The wall velocity and wall temperature gradient are significantly influenced by Eyring-Powell rheology and ion and charged in fluid exposed to the magnetic field. The velocity of fluid slows but temperature increases when intensity of magnetic field is increased.
机译:通过管理法律的数学方程式建模部分电离的非牛顿液体中的热传输现象,在磁场存在下,模拟磁场的存在。 将复合耦合的PDE组设置为无量纲形式并通过有限元方法解决。 计算自由和收敛解决方案。 参数分析是为了研究新兴参数对流动和热输送流体制度的影响。 霍尔和离子滑动电流具有重要作用,在减少眼镜鲍鱼液体中的散热(由电荷和离子组成)。 壁速和壁温度梯度受到眼泪 - 鲍威尔流变学和离子的显着影响,并在暴露于磁场的流体中充电。 流体的速度减慢,但是当磁场强度增加时,温度增加。

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