非牛顿流体内流传热研究
Investigation on an Internal Thermal Flow of Non-Newtonian Fluid
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摘要: 在本文中,研究了注入轴对称模腔非牛顿流体非定常流动.本文的第二部份研究了上随体Maxwell流体管内热流动.对于注入模腔流动.其本构方程采用幂律流体模型方程.为了避免在表现粘度中温度关系引起的非线性.引进了一特征粘度的概念.描述本力学过程的基本方程是,本构方程、定常状态的运动方程、非定常能量方程及连续方程.该方程组在空间是二维问题,在数学上是三维问题.采用分裂差分格式求得本方程组的数值解答.分裂法曾成功应用于求解牛顿流体问题.在本文中,首次将分裂法成功地应用解决非牛顿流体流动问题.对于圆管内热流,给出了差分格式,使基本方程组化为一个三对角方程组.其结果,给出了不同时刻的模腔内二维温度分布.Abstract: In the present paper an unsteady thermal flow of non-Newtonian fluid is investigated which is of the flow into axisymmetric mould cavity.In the second part an unsteady thermal flow of upper-convected Maxwell fluid is studied.For the flow into mould cavity the constitutive equation of power-law fluid is used as a Theological model of polymer fluid.The apparent viscosity is considered as a function of shear rate and temperature.A characteristic viscosity is introduced in order to avoid the nonlinearity due to the temperature dependence of the apparent viscosity.As the viscosity of the fluid is relatively high the flow of the thermal fluid can be considered as a flow of fully developed velocity field.However, the temperature field of the fluid flow is considered as an unsteady one.The governing equations are constitutive equation, momentum equation of steady flow and energy conservation equation of non-steady form.The present system of equations has been solved numerically by the splitting difference method.The numerical results show that the splitting difference method is suitable for the 2D problem of non-Newtonian fluid.The present application of the splitting diffference method is at first developed by us for non-Newtonian case.For the unsteady flow in the tube the finite difference scheme is given which leads to a tridiagonal system of equations.
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Key words:
- internal thermal flow /
- power law fluid /
- Maxwell fluid /
- splitting difference scheme /
- unsteady flow
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