CO2 Injectivity in Geological Storages: an Overview of Program and Results of the GeoCarbone-Injectivity Project

J. Lombard, M. Azaroual, J. Pironon, D. Broseta, P. Egermann, Gilles Munier, G. Mouronval
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引用次数: 23

Abstract

The objective of the GeoCarbone-Injectivity project was to develop a methodology to study the complex phenomena involved in the near wellbore region during CO2 injection. This paper presents an overview of the program and results of the project, and some further necessary developments. The proposed methodology is based on experiments and simulations at the core scale, in order to understand (physical modelling and definition of constitutive laws) and quantify (calibration of simulation tools) the mechanisms involved in injectivity variations: fluid/rock interactions, transport mechanisms, geomechanical effects. These mechanisms and the associated parameters have then to be integrated in the models at the wellbore scale. The methodology has been applied for the study of a potential injection of CO2 in the Dogger geological formation of the Paris Basin, in collaboration with the other ANR GeoCarbone projects.
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地质储层的二氧化碳注入性:地质碳注入性项目的计划和结果概述
gecarbone - injectivity项目的目标是开发一种方法来研究近井区域在二氧化碳注入过程中涉及的复杂现象。本文概述了该项目的方案和成果,并提出了一些必要的进一步发展。所提出的方法是基于核心尺度的实验和模拟,以理解(物理建模和本构定律的定义)和量化(模拟工具的校准)涉及注入变化的机制:流体/岩石相互作用,运输机制,地质力学效应。然后,这些机制和相关参数必须集成到井筒尺度的模型中。该方法已与其他ANR GeoCarbone项目合作,用于研究巴黎盆地Dogger地质地层中潜在的二氧化碳注入。
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