一种用于砂岩油藏堵水的新型坚固聚合物凝胶

Ayman Almohsin, Jin-Chao Hung, M. Bataweel, A. Abadi
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引用次数: 0

摘要

聚合物凝胶是高含水砂岩油藏堵水的有效方法。WSO的应用可以延长油田的经济寿命,一旦不希望的产水量降到最低。开发了一种新型聚合物凝胶,用于堵水应用,扩展了目前砂岩地层可用材料的局限性。新开发的系统提供了有机交联聚合物凝胶与砂岩表面的化学键合,使堵水系统具有更高的稳定性和卓越的性能。该流体系统毒性低,环境可接受。它由聚合物凝胶和砂岩层吸附组分组成,为了提高WSO聚合物凝胶的封堵效率,在有机交联聚合物(OCP)凝胶中引入了砂岩层专用吸附组分。凝胶剂可以作为单相低粘度溶液放置到目标地层中。新聚合物凝胶实验室流变学研究表明,砂岩吸附组分的加入对凝胶化时间和形成的凝胶强度都有很大的影响。通过使用适当的缓凝剂,可以在不影响凝胶强度的情况下控制凝胶时间。将新型聚合物凝胶置于高渗透砂岩岩心塞中,随后注入尾随水以测量堵井能力。岩心流量测试表明出水量大幅下降。新的聚合物系统能够在200°F下承受3500psi的压差,并且不允许水在岩心样品中流动。新的聚合物凝胶体系有望通过高渗透条纹和大孔径来控制产水。由于多孔介质的初始粘度较低,该体系可以在不降低注入能力的情况下注入。这项工作提供了重要的见解,使用聚合物凝胶体系作为有效的化学处理碳酸盐基质作为堵水材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Robust Polymer Gels for Water Shutoff Application in Sandstone Reservoir
Polymer gels is an effective method for water shut-off (WSO) application in sandstone oil reservoirs having high water cuts. WSO application can extend the economic life of the field once the undesired water production is minimized. A novel polymer gel was developed for water shut-off applications that extend the limitations of the current available materials for sandstone formation. The new developed system offers chemical bonding of an organically crosslinked polymer gel to the sandstone rock surface, enabling the water shutoff system having enhanced stability with superior performance. The fluid system is low toxic and environmentally acceptable. It is comprised of polymer gel and adsorption components for sandstone formation, In order to enhance the blocking efficiency of WSO polymer gel, specific adsorption component for sandstone formation was introduced into the organically crosslinked polymer (OCP) gel. The gelant can be placed as a single phase, low-viscosity solution into the targeted formation zones. The new Polymer gel Lab rheology study of the new developed polymer gel reveals that both the gelation time and the formed gel strength were greatly affected by the addition of the sandstone adsorption component. By using the appropriate retarder, the gelation time can be controlled without compromising gel strength. The new polymer gel was placed in haigh permeability sandstone core plug, and chase water was subseqyently injected to measure bloking capasity. The core flow test indicates substantial drops in water prduction. The new polymer system was able to withstand 3500 psi differential pressures at 200°F and did not allow the flow of water inside the core sample. The new polymer gel system is expected to control water production through high permeability streaks and large pore openings. The system can be injected in porous media without injectivity reduction due to their low initial viscosity. This work provides significant insight using polymer gel system as an effective chemical treatments intended for carbonate substrate as water shutoff material.
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