An Extrapolated Second Order Backward Difference Time-Stepping Scheme for the Magnetohydrodynamics System

Ravindran S. S.

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An Extrapolated Second Order Backward Difference Time-Stepping Scheme for the Magnetohydrodynamics System

机译：磁流体动力学系统的外推二阶向后差分时步法

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In this article, we introduce a fully implicit, linearly extrapolated second-order backward difference time-stepping scheme for solving a time dependent non-homogeneous magnetohydrodynamic system for electrically conducting fluids. The extrapolated time-stepping scheme is used for time discretization and the mixed finite element method is used for spatial discretization. We first prove unconditional energetic stability without introducing an undesirable exponential Gronwall constant. Complete error analysis is provided without assuming any stability condition or restrictions on the time-step size. Numerical experiments are presented to confirm the theoretical convergence results and efficiency of the scheme.

机译：在本文中，我们介绍了一种完全隐式的，线性外推的二阶后向差分时步方案，用于求解与时间相关的导电流体非均匀磁流体动力学系统。外推时间步方案用于时间离散化，混合有限元法用于空间离散化。我们首先证明无条件的能量稳定性，而不引入不希望的指数Gronwall常数。提供完整的错误分析，而无需假设任何稳定性条件或对时间步长的限制。数值实验证明了该方案的理论收敛性和有效性。

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《Numerical Functional Analysis and Optimization》 |2016年第9期|共31页
作者
Ravindran S. S.;
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正文语种 eng
中图分类泛函分析;数值分析;对策论（博弈论）;
关键词
Error estimates; linear extrapolation; MHD system; mixed finite element; second-order backward difference formula (BDF); stability; non-homogeneous; 76W05; 65M12; 65M06; 65M15; 65M60;

机译：误差估计;线性外推;MHD系统;混合有限元;二阶后向差分公式（BDF）;稳定性;非齐次;76W05;65M12;65M06;65M15;65M60;

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专利

1. An Extrapolated Second Order Backward Difference Time-Stepping Scheme for the Magnetohydrodynamics System [J] . Ravindran S. S. Numerical Functional Analysis and Optimization . 2016,第7a9期

机译：磁流体动力学系统的外推二阶向后差分时步法
2. An Analysis of the Blended Three-Step Backward Differentiation Formula Time-Stepping Scheme for the Navier-Stokes-Type System Related to Soret Convection [J] . Ravindran S. S. Numerical Functional Analysis and Optimization . 2015,第4a6期

机译：Soret对流的Navier-Stokes型系统的混合三步向后微分公式时步方案分析
3. Convergence analysis of Crank-Nicolson extrapolated fully discrete scheme for thermally coupled incompressible magnetohydrodynamic system [J] . Qianqian Ding, Xiaonian Long, Shipeng Mao Applied numerical mathematics . 2020,第Nova期

机译：曲柄 - 尼古尔森推断完全离散方案的收敛性分析，用于热耦合不可压磁流体动力学系统
4. Higher Order Integration of Non-Smooth Dynamical Systems Using Parallel Computed Extrapolation Methods Based on Time-Stepping Schemes [C] . Robert Huber, Heinz Ulbrich Joint international conference on multibody system dynamics . 2011

机译：基于时间步进方案的并行计算外推方法对非光滑动力系统的高阶积分
5. High order finite difference WENO schemes for ideal magnetohydrodynamics. [D] . Feng, Xiao. 2017

机译：理想磁流体动力学的高阶有限差分WENO方案。
6. Discrete maximal regularity of time-stepping schemes for fractional evolution equations [O] . Bangti Jin, Buyang Li, Zhi Zhou -1

机译：分数阶演化方程的时间步长离散离散正则性
7. A new linearly extrapolated Crank-Nicolson time-stepping scheme for the Navier-Stokes equations [O] . Ross Ingram 2013

机译：用于Navier-Stokes方程的一种新的线性推断曲柄曲柄 - 尼古尔森时间步进方案
8. Re-evaluation of an Optimized Second Order Backward Difference (BDF2OPT) Scheme for Unsteady Flow Applications [R] . Vatsa, V. N., Carpenter, M. H., Lockard, D. P. 2009

机译：重新评估非定常流动应用的优化二阶后向差分（BDF2OpT）方案

An Extrapolated Second Order Backward Difference Time-Stepping Scheme for the Magnetohydrodynamics System

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