The flow of second grade fluid over a stretching sheet with variable thermal conductivity and viscosity in the presence of heat source/sink

Temitope E. Akinbobola, Samuel S. Okoya
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引用次数: 70

Abstract

Steady two-dimensional non-Newtonian second grade fluid is studied under the influence of temperature dependent viscosity and thermal conductivity. The viscosity is assumed to vary inversely as linear function of temperature while the thermal conductivity varies directly as linear function of temperature. Also, effects of radiative heat, viscous dissipation and heat source/sink are considered in the energy equation. The basic governing partial differential equations for the velocity and temperature are transformed to ordinary differential equations (ODEs) using appropriate similarity variables. These coupled nonlinear ODEs have been solved approximately subject to appropriate boundary conditions by Runge–Kutta shooting technique. The quantitative effects of emerging dimensionless physical parameters on the velocity, temperature, skin friction and heat transfer rate are displayed graphically. The numerical investigation of the variable thermo-physical properties of a second grade fluid over a stretching sheet provides an extension to previous work.

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在热源/热源存在的情况下,二级流体在具有可变热导率和粘度的拉伸薄片上的流动
研究了二维非牛顿二阶流体在温度黏度和导热系数影响下的稳态特性。假定粘度与温度成反比线性关系,而导热系数与温度成线性关系。在能量方程中还考虑了辐射热、粘性耗散和热源/汇的影响。利用适当的相似变量将速度和温度的基本控制偏微分方程转化为常微分方程。在适当的边界条件下,用龙格-库塔射击技术对这些耦合非线性ode进行了近似求解。新出现的无量纲物理参数对速度、温度、表面摩擦和换热率的定量影响用图形显示。二级流体在拉伸薄片上的可变热物性的数值研究是对以往工作的扩展。
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