Adaptive Time Stepping, Linearization and a Posteriori Error Control for Multiphase Flow with Wells

E. Ahmed, Ø. Klemetsdal, X. Raynaud, O. Møyner, H. Nilsen
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引用次数: 1

Abstract

We present in this paper a-posteriori error estimators for multiphase flow with singular well sources. The estimators are fully and locally computable, distinguish the various error components, and target the singular effects of wells. On the basis of these estimators we design an adaptive fully-implicit solver that yields optimal nonlinear iterations and efficient time-stepping, while maintaining the accuracy of the solution. A key point is that the singular nature of the solution in the near-well region is explicitly captured and efficiently estimated using the adequate norms. Numerical experiments illustrate the efficiency of our estimates and the performance of the adaptive algorithm.
多相流井的自适应时间步进、线性化和后验误差控制
本文给出了具有奇异井源的多相流的后验误差估计。该估计器是完全和局部可计算的,能够区分各种误差分量,并针对井的奇异效应。在这些估计量的基础上,我们设计了一个自适应全隐式求解器,在保持解的准确性的同时,产生最优的非线性迭代和有效的时间步进。关键的一点是,近井区域解的奇异性被明确地捕获,并使用适当的规范有效地估计。数值实验证明了我们估计的有效性和自适应算法的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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