Error estimation for non-linear singularly perturbed reaction–diffusion parabolic problems via element-free Galerkin method

IF 1.7 4区 化学 Q4 CHEMISTRY, PHYSICAL Reaction Kinetics, Mechanisms and Catalysis Pub Date : 2024-04-27 DOI:10.1007/s11144-024-02630-0
Jagbir Kaur, Vivek Sangwan, Rahul Kumar
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Abstract

The current study aims to develop an error analysis for non-linear parabolic singularly perturbed reaction–diffusion problems using element-free Galerkin method. A robust numerical methodology is introduced based on combining the implicit Crank–Nicolson scheme for temporal derivatives and the element-free Galerkin (EFG) method for spatial derivatives. The moving least-squares (MLS) approximation has been employed to generate the shape functions. Essential boundary conditions have been enforced by the incorporation of the Lagrange multiplier method. Due to the presence of steep boundary layers in the solution of the considered problem, a piecewise-uniform layer-adapted Shishkin’s technique has been used to generate nodal points at the transition point. The stability and error analysis of the present method on a discrete \(L^{2}-\)norm is analyzed in an innovative theoretical framework. The \(\epsilon\)-uniform convergency of the fully-discrete EFG method is shown to be \(\mathcal {O}(\tau ^{2}+d_{s}^{m})\), where \(\tau\) and \(d_{s}^{m}\) are the time step size and size of the influence domain, respectively. The Lagrange multiplier method has been incorporated to deal with the implementation of essential boundary conditions. Lastly, a few numerical experiments are performed to validate the theoretical results and verify the computational consistency and robustness of the proposed scheme. The \(L_{\infty }\) errors and the convergence rate have been presented.

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通过无元素伽勒金方法估算非线性奇异扰动反应-扩散抛物问题的误差
本研究旨在利用无元素 Galerkin 方法对非线性抛物线奇异扰动反应扩散问题进行误差分析。在结合隐式 Crank-Nicolson 方案处理时间导数和无元素 Galerkin (EFG) 方法处理空间导数的基础上,引入了一种稳健的数值方法。采用移动最小二乘(MLS)近似来生成形状函数。通过采用拉格朗日乘法器方法,强制执行了必要的边界条件。由于在所考虑问题的求解过程中存在陡峭的边界层,因此采用了片状均匀层适配 Shishkin 技术来生成过渡点的节点。在一个创新的理论框架中分析了本方法在离散 \(L^{2}-\)norm 上的稳定性和误差分析。全离散 EFG 方法的均匀收敛性被证明是 \(\mathcal {O}(\tau ^{2}+d_{s}^{m})\), 其中 \(\tau\) 和 \(d_{s}^{m}\) 分别是时间步长和影响域的大小。拉格朗日乘法器方法被用来处理基本边界条件的实现。最后,进行了一些数值实验来验证理论结果,并验证了所提方案的计算一致性和鲁棒性。同时还给出了误差和收敛率。
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来源期刊
CiteScore
3.30
自引率
5.60%
发文量
201
审稿时长
2.8 months
期刊介绍: Reaction Kinetics, Mechanisms and Catalysis is a medium for original contributions in the following fields: -kinetics of homogeneous reactions in gas, liquid and solid phase; -Homogeneous catalysis; -Heterogeneous catalysis; -Adsorption in heterogeneous catalysis; -Transport processes related to reaction kinetics and catalysis; -Preparation and study of catalysts; -Reactors and apparatus. Reaction Kinetics, Mechanisms and Catalysis was formerly published under the title Reaction Kinetics and Catalysis Letters.
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