论具有源和非线性边界条件的非线性扩散系统解的行为

IF 0.7 Q2 MATHEMATICS
M. Aripov, Z. Rakhmonov, A.A. Alimov
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引用次数: 0

摘要

我们研究了慢扩散情况下具有非线性边界条件的非线性扩散系统的全局可解性和不可解性。我们得到了藤田型临界指数和临界全局存在指数,它们在分析反应-扩散、传热、过滤以及其他物理、化学和生物过程的非线性模型的定性特征方面起着重要作用。在全局可解性情况下,可以获得渐近解的关键组成部分。众所周知,迭代法既能快速收敛到精确解,又能保持所研究非线性过程的定性特征,但需要存在适当的初始近似值。这对非线性问题的数值求解提出了巨大挑战。成功选择初始近似值可以解决这一难题,而初始近似值取决于方程的数值参数值,在计算中主要建议使用渐近公式。利用自相似解的渐近公式作为迭代过程的初始近似值,进行了数值计算和结果分析。数值实验结果表明,计算结果与非线性扩散系统的物理过程非常吻合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the behaviors of solutions of a nonlinear diffusion system with a source and nonlinear boundary conditions
We study the global solvability and unsolvability of a nonlinear diffusion system with nonlinear boundary conditions in the case of slow diffusion. We obtain the critical exponent of the Fujita type and the critical global existence exponent, which plays a significant part in analyzing the qualitative characteristics of nonlinear models of reaction-diffusion, heat transfer, filtration, and other physical, chemical, and biological processes. In the global solvability case, the key components of the asymptotic solutions are obtained. Iterative methods, which quickly converge to the exact solution while maintaining the qualitative characteristics of the nonlinear processes under study, are known to require the presence of an appropriate initial approximation. This presents a significant challenge for the numerical solution of nonlinear problems. A successful selection of initial approximations allows for the resolution of this challenge, which depends on the value of the numerical parameters of the equation, which are primarily in the computations recommended using an asymptotic formula. Using the asymptotics of self-similar solutions as the initial approximation for the iterative process, numerical calculations and analysis of the results are carried out. The outcomes of numerical experiments demonstrate that the results are in excellent accord with the physics of the process under consideration of the nonlinear diffusion system.
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来源期刊
CiteScore
1.20
自引率
50.00%
发文量
50
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