Numerical treatment of fractal boundary value problems for heat conduction in polar bear with spatial variation of thermal conductivity

Examples and Counterexamples Pub Date : 2022-11-01 DOI:10.1016/j.exco.2022.100088
Navnit Jha
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引用次数: 0

Abstract

A high-resolution compact discretization scheme for the numerical approximation of two-point nonlinear fractal boundary value problems is presented to study the stationary anomalous diffusion process. Hausdorff derivative is applied to derive the models in fractal media. The proposed scheme solves the nonlinear fractal model and achieves an accuracy of order four by employing only three mesh points in a stencil and consumes short computing time. Numerical simulations with heat conduction in polar bear, convection–diffusion, boundary layer, Bessel’s and Burgers equation in a fractal medium are carried out to illustrate the utility of the scheme and their numerical rate of convergence.

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考虑热导率空间变化的北极熊热传导分形边值问题的数值处理
为了研究平稳异常扩散过程,提出了一种用于两点非线性分形边值问题数值逼近的高分辨率紧致离散化方案。应用Hausdorff导数导出分形介质中的模型。该方案解决了非线性分形模型,在一个模板中只使用三个网格点,精度达到四阶,计算时间短。对分形介质中的北极熊热传导、对流-扩散、边界层、贝塞尔方程和Burgers方程进行了数值模拟,以说明该格式的实用性及其数值收敛速度。
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Examples and Counterexamples
Examples and Counterexamples
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