用富集伽辽金作为能量和质量守恒格式模拟热孔弹性问题

Day 1 Tue, March 28, 2023 Pub Date : 2023-03-21 DOI:10.2118/212240-ms

A. G. Almetwally, R. Podgorney, M. Wheeler

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引用次数: 0

摘要

热孔弹性问题的精确模拟对含水层、地热和油气储层的开发活动都是有益的。用有限元连续伽辽金格式(CG)模拟这类问题缺乏局部能量/质量守恒。尽管不连续伽辽金(DG)是一种保守的方案，但它的计算成本很高，而且具有更高的自由度(dof)。本文提出了热孔弹性问题的富伽辽金格式(EG)实现，以保证局部能量/质量守恒。

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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Using Enriched Galerkin as an Energy and Mass Conservative Scheme for Simulating Thermoporoelasticity Problems

Accurate simulation of the thermoporoelasticity problems is beneficial for the exploitation activities of aquifers, geothermal, and hydrocarbon reservoirs. Simulating such problems using a finite-element Continuous Galerkin scheme (CG) lacks local energy/mass conservation. Despite being a conservative scheme, Discontinuous Galerkin (DG) is computationally expensive with much higher degrees of freedom (DoFs). This paper presents the Enriched Galerkin scheme (EG) implementation for thermoporoelasticity problems to ensure local energy/mass conservation with fewer DoFs.

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Day 1 Tue, March 28, 2023

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