Effects of Various Solvents on Adsorption of Organics for Porous and Nonporous Quartz/CO2: Implications for CO2 Geo-Storage

Energy & Fuels Pub Date : 2022-08-26 DOI:10.1021/acs.energyfuels.2c01696

Muhammad Amjad Ali, N. Yekeen, Mujahid Ali, M. Hosseini, N. Pal, A. Keshavarz, S. Iglauer, H. Hoteit

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引用次数: 13

Abstract

The underground geo-storage of carbon dioxide (CO2) is an essential component of the carbon capture and sequestration value chain. The success of CO2 containment depends on the wetting state of the rock, which controls the mechanism of fluid flow and distribution. The presence of organic acids in the storage formation introduces a considerable effect on the wettability of the rock/CO2/brine system under various temperature and pressure conditions. Despite the previous studies on this topic, the impact of the substrate pores, the rock surface roughness, and the solvents used to prepare the organic acid solution under various temperatures and pressures has not yet been elucidated. In the present study, the contact angles of non-porous quartz and porous Fontainebleau quartz are measured in CO2/brine systems at various pressures of 0.1−20 MPa and temperatures of 298 and 323 K. In addition, various solvents are used to prepare the stearic acid solution in order to assess their influence on the adsorption of organics for porous and non-porous quartz/CO2/brine systems. The results clearly indicate that n-decane is the most effective solvent for solubilizing the stearic acid to attain full wettability of the substrate by CO2 due to its polar compatibility with the stearic acid. Generally, the porous aged Fontainebleau quartz exhibits higher contact angles than the aged non-porous quartz at higher pressures, and the unaged Fontainebleau surfaces demonstrate water wettability, with a wide range of advancing and receding contact angles of less than 90°. However, when the pressure is increased to 15 and 20 MPa in the CO2/brine system, the contact angles of the Fontainebleau quartz are higher than those of pure quartz. These results suggest that the surface roughness of the rock merely amplifies the inherent surface chemistry and original wettability of the rock if surface conditions are hydrophobic.

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不同溶剂对多孔和非多孔石英/CO2吸附有机物的影响:CO2地质封存的意义

二氧化碳(CO2)的地下地质储存是碳捕获和封存价值链的重要组成部分。封堵CO2的成功与否取决于岩石的湿润状态，而湿润状态控制着流体的流动和分布机制。在不同的温度和压力条件下，储层中有机酸的存在会对岩石/CO2/盐水体系的润湿性产生相当大的影响。尽管之前有关于该主题的研究，但基质孔隙，岩石表面粗糙度以及在不同温度和压力下制备有机酸溶液所用溶剂的影响尚未得到阐明。在本研究中，我们测量了CO2/盐水体系中无孔石英和多孔枫丹白露石英在0.1 ~ 20 MPa压力和298和323 K温度下的接触角。此外，采用各种溶剂制备硬脂酸溶液，以评估其对多孔和非多孔石英/CO2/盐水体系中有机物吸附的影响。结果表明，正癸烷与硬脂酸极性相容，是使硬脂酸被CO2完全润湿的最有效溶剂。一般情况下，在较高的压力下，多孔老化的枫丹白露石英比无孔老化的石英表现出更高的接触角，未老化的枫丹白露石英表面表现出水润湿性，其进退接触角范围较宽，小于90°。而在CO2/盐水体系中，当压力增加到15和20 MPa时，枫丹白露石英的接触角高于纯石英。这些结果表明，如果表面条件是疏水的，岩石的表面粗糙度只是放大了岩石固有的表面化学和原始润湿性。

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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Energy & Fuels

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