Numerical Simulation of Multiphase Hydromechanical Processes Induced by CO2 Injection into Deep Saline Aquifers

U. Goerke, C. H. Park, Wenqing Wang, Ashok Singh, O. Kolditz
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引用次数: 38

Abstract

In this paper, the conceptual modeling and the numerical simulation of two-phase flow during CO2 injection into deep saline aquifers is presented. The work focuses on isothermal short-term processes in the vicinity of the injection well. Governing differential equations are based on balance laws for mass and momentum, and completed by constitutive relations for the fluid and solid phases as well as their mutual interactions. Constraint conditions for the partial saturations and the pressure fractions of CO2 and brine are defined. To characterize the stress state in the solid matrix, the effective stress principle is applied. The coupled problem is solved using the inhouse scientific code OpenGeoSys (an open source finite element code) and verified with benchmarks.
深盐水含水层注入CO2诱导多相流体力学过程的数值模拟
本文建立了深部咸水含水层注CO2过程中两相流动的概念模型和数值模拟。工作的重点是注入井附近的等温短期过程。控制微分方程以质量和动量的平衡定律为基础,由流固两相及其相互作用的本构关系来完成。定义了CO2和盐水的分饱和度和压力分数的约束条件。为了描述固体基体中的应力状态,应用了有效应力原理。使用内部科学代码OpenGeoSys(一个开源的有限元代码)解决了耦合问题,并通过基准测试进行了验证。
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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