Clay swelling inhibition mechanism based on inhibitor-water interaction: A COSMO-RS molecular simulation approach

IF 2.6 Q3 ENERGY & FUELS
Ato Kwamena Quainoo , Cornelius Borecho Bavoh , Kwamena Opoku Duartey , Daniel Alhassan
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引用次数: 2

Abstract

The inclusion of clay stabilizers in water-based fluids (WBFs) during drilling, imparts WBFs with clay swelling-inhibitive properties. This protects the formation from damage due to the enhanced reduction of the swelling components (clay portions) of the formation by these chemicals during drilling. With the increasing demand for ‘green’ clay stabilizers for WBFs, knowledge of their inhibitive mechanisms is necessary for their effective selection and usage. Earlier, we proposed Amino acids (AAs) as effective “green and cheap’ clay stabilizers, However, the mechanisms through which AAs and other clay stabilizers perform shale stabilization have not been adequately described in open literature. This study is a follow-up work employed to evaluate and succinctly describe all the inhibition mechanisms utilized by AAs to prevent the swelling of the reservoir formations. Furthermore, we discovered a novel mechanism for describing the inhibitive potentials between clay stabilizers in WBFs. Herein, we employed five experimental techniques alongside a modelling tool - COSMO-RS, to evaluate and describe the inhibitive mechanisms of six AA clay stabilizers. This study confirmed that the interaction of AA and the water component of the WBF is a significant factor for AAs effective stabilizing potentials. This is an addition to literature which only highlights the interactions of clay stabilizers and clay minerals for the stability of the formation. This work evaluated all the possible interactions during a clay stabilization process and utilized statistical analyses to compare the percentage contributions of all the interactions among the clay stabilizers (AAs), clay minerals and WBFs. It was revealed that 38% of the swelling inhibition potentials of AAs depend on their interactions with the water component of the WBFs. Concurrently, 28% of the AAs inhibition potentials are based on their ability to modify the surface of reactive clays, while 15% is based on AAs ability to replace the exchangeable cations of swelling clays resulting in the strengthening of the clay's cleavage spacing. Lastly, 18% of AAs stabilizing potentials are based on their ability to neutralize the reactive moieties of swelling clays. The percentage distribution reveals that the effective interactions of AAs with the WBFs significantly contribute to their effectiveness in stabilizing shale formations. This study is essential as it provides researchers with a holistic methodology to characterize and evaluate clay stabilizers.

基于缓蚀剂-水相互作用的粘土膨胀抑制机制:cosmos - rs分子模拟方法
在钻井过程中,在水基流体(WBFs)中加入粘土稳定剂,使WBFs具有粘土抑制膨胀的特性。由于这些化学物质在钻井过程中增强了地层膨胀成分(粘土部分)的减少,从而保护地层免受损害。随着“绿色”粘土稳定剂对wbf的需求不断增加,了解其抑制机制对于有效选择和使用是必要的。早些时候,我们提出氨基酸(AAs)是有效的“绿色和廉价”粘土稳定剂,然而,通过AAs和其他粘土稳定剂进行页岩稳定的机制尚未在公开文献中得到充分描述。本研究是一项后续工作,旨在评估和简洁地描述原子吸收剂用于防止储层膨胀的所有抑制机制。此外,我们还发现了一种描述WBFs中粘土稳定剂之间抑制电位的新机制。在此,我们采用五种实验技术以及建模工具cosmos - rs来评估和描述六种AA粘土稳定剂的抑制机制。本研究证实了果酸与水组分的相互作用是影响果酸有效稳定电位的重要因素。这是对文献的补充,文献只强调了粘土稳定剂和粘土矿物对地层稳定性的相互作用。本研究评估了粘土稳定过程中所有可能的相互作用,并利用统计分析比较了粘土稳定剂(aa)、粘土矿物和WBFs之间所有相互作用的百分比贡献。结果表明,38%的AAs溶胀抑制电位取决于其与WBFs水组分的相互作用。同时,28%的AAs抑制电位是基于它们对活性粘土表面的修饰能力,而15%的AAs抑制电位是基于它们取代膨胀粘土的交换阳离子的能力,从而增强了粘土的解理间距。最后,18%的AAs稳定电位是基于它们中和膨胀粘土的活性部分的能力。百分比分布表明,AAs与WBFs的有效相互作用显著促进了其稳定页岩地层的有效性。这项研究是必不可少的,因为它为研究人员提供了一个整体的方法来表征和评估粘土稳定剂。
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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CiteScore
5.50
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