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Abstract:
The present examination of mass and heat communication looks at the impact of induced magnetic field, variable thermal conductivity, and activation energy on the flow of second-order liquid across a stretched surface. The mass-heat transfer is also treated using the Model for generalized Fourier and Fick\'s Laws. The model equations are transformed as needed to produce a system of nonlinear ODEs, which are then numerically solved with the help of BVP4C integrated MATLAB approach. The heat-mass flow parameters are analyzed by the table and graphs. An increment in the estimations of 2nd grade fluid parameter (β) with magnetic field parameter (M) increase the speed sketch. For the stronger estimations of Schmidt number (Sc), parameter of magnetic field (M) and Eckert number (Ec) have the growing behavior on the temperature profile.
摘要:
目前对质量和热量传递的检查着眼于感应磁场的影响,可变热导率,以及二阶液体在拉伸表面上流动的活化能。还使用广义傅里叶和菲克定律模型处理了质量-传热。根据需要对模型方程进行转换,以产生非线性ODE系统,然后在BVP4C集成MATLAB方法的帮助下进行数值求解。通过表格和图形分析热质量流量参数。带有磁场参数(M)的二级流体参数(β)的估计值增加了速度草图。对于施密特数(Sc)的更强估计,磁场参数(M)和Eckert数(Ec)在温度曲线上具有增长行为。
