Brine/CO2 Interfacial Properties and Effects on CO2 Storage in Deep Saline Aquifers

C. Chalbaud, M. Robin, J. Lombard, H. Bertin, P. Egermann
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引用次数: 77

Abstract

It has been long recognized that interfacial interactions (interfacial tension, wettability, capillarity and interfacial mass transfer) govern fluid distribution and behaviour in porous media. Therefore the interfacial interactions between CO2 , brine and reservoir oil and/or gas have an important influence on the effectiveness of any CO2 storage operation. There is a lack of experimental data related to interfacial properties for all the geological storage options (oil & gas reservoirs, coalbeds, deep saline aquifers). In the case of deep saline aquifers, there is a gap in data and knowledge of brine-CO2 interfacial properties at storage conditions. More specifically, experimental interfacial tension values and experimental tests in porous media are necessary to better understand the wettability evolution as a function of thermodynamic conditions and it’s effects on fluid flow in the porous media. In this paper, a complete set of experimental values of brine-CO2 Interfaciale Tension (IFT) at pressure, temperature and salt concentration conditions representative of those of a CO2 storage operation. A correlation is derived from experimental data published in a companion paper [Chalbaud C., Robin M., Lombard J.-M., Egermann P., Bertin H. (2009) Interfacial Tension Measurements and Wettability Evaluation for Geological CO2 Storage, Adv. Water Resour. 32, 1, 1-109] to model IFT values. This paper pays particular attention to coreflooding experiments showing that the CO2 partially wets the surface in a Intermediate-Wet (IW) or Oil-Wet (OW) limestone rock. This wetting behavior of CO2 is coherent with observations at the pore scale in glass micromodels and presents a negative impact on the storage capacity of a given site.
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深盐层盐水/CO2界面特性及其对CO2储存的影响
人们早就认识到,界面相互作用(界面张力、润湿性、毛细作用和界面传质)控制着多孔介质中的流体分布和行为。因此,CO2、卤水和储层油/气之间的界面相互作用对任何CO2储存作业的有效性都有重要影响。目前缺乏与所有地质存储选项(油气储层、煤层、深盐水含水层)的界面特性相关的实验数据。在深盐水含水层的情况下,在储存条件下的盐水-二氧化碳界面特性的数据和知识存在空白。更具体地说,为了更好地理解润湿性随热力学条件的变化及其对多孔介质中流体流动的影响,有必要进行实验界面张力值和实验测试。本文给出了一套完整的盐水-CO2界面张力(IFT)在压力、温度和盐浓度条件下的实验值,代表了一次CO2封存作业。相关性来自于发表在一篇配套论文中的实验数据[Chalbaud C., Robin M., Lombard J.-M.]。[3]张建军,张建军,张建军,等。(2009)基于地层学方法的地层学研究[j] .地球科学进展,32(1):1- 9。本文特别关注了岩心注水实验,表明CO2部分润湿了中湿(IW)或油湿(OW)石灰岩的表面。CO2的这种润湿行为与玻璃微观模型在孔隙尺度上的观察一致,并对给定地点的存储容量产生负面影响。
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