Evaluation of Foam-Gels for Conformance Control in High Temperature High Salinity Carbonates

Lyla Almaskeen, A. AlSofi, Jinxun Wang, Z. Kaidar
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Abstract

In naturally fractured reservoirs, conformance control prior to enhanced oil recovery (EOR) application might be essential to ensure optimal contact and sufficient sweep. Recently, few studies investigated combining foams and gels into what is commonly coined as foamed-gels. Foamed-gels have been tested and shown to be potential for some field conditions. Yet, very limited studies were performed for high temperature and high salinity carbonates. Therefore, in this work, we study the potential of foamed-gels for high temperature and high salinity carbonates. The objective is to evaluate the potential of such synergy and to compare its value to the individual processes. For that purpose, in this work, we rely on bulk and core-scale tests. Bulk tests were used for initial screening. Wide range of foam-gel solutions were prepared with different polymer types and polymer concentrations. Test tubes were hand shacked thoroughly to generate foams. Foam heights were then measured from the test tubes. Heights were used to screen foaming agents and to study gelant effects on foamers in terms of foam strength (heights). The effect of foamers on gelation was evaluated through bottle tests. Based on the results, an optimal concentration ratio of gelant to foamer was determined and used in core-scale displacements, to further study the potential of this hybrid foam-gel process. Bulk results suggested that addition of the gelant up to a 4:1 foam to gel concentration ratio resulted in sufficient foam generation in some of the polymer samples. Yet, only two of the foam-gel samples generated a strong gel. Increasing the foamer concentration delayed the gelation time and in some samples, the solution did not gel. Through the coreflooding experiment, resistance factor (RF) and residual resistance factor (RRF) were obtained for different conformance control processes including foam, foam-gel, and gel. Foam-gel injection exhibited higher RF and RRF values than conventional foams. However, conventional gels showed even higher RF and RRF values than foam-gels. Combining two of the most widely used conformance control methods (foams and gels) can strike a balance. Foam-gel may offer a treatment that is deeper and more sustainable than foams and on the other a treatment that is more practical, and lower-cost than gels. Our laboratory results also demonstrate that such synergetic conformance control can be achieved in high salinity and high temperature carbonates with pronounced impact.
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泡沫凝胶在高温高盐度碳酸盐地层中的一致性控制评价
在天然裂缝性油藏中,提高采收率(EOR)前的一致性控制可能是确保最佳接触和充分扫井的关键。最近,很少有研究将泡沫和凝胶结合成通常被称为泡沫凝胶的东西。泡沫凝胶已经过测试,在某些现场条件下具有潜力。然而,对高温高盐度碳酸盐的研究非常有限。因此,在本工作中,我们研究了泡沫凝胶在高温高盐度碳酸盐中的潜力。目的是评价这种协同作用的潜力,并将其与个别过程的价值进行比较。为此,在这项工作中,我们依赖于批量和核心规模的测试。批量试验用于初始筛选。用不同的聚合物类型和浓度制备了多种泡沫凝胶溶液。用手彻底摇动试管以产生泡沫。然后从试管中测量泡沫高度。使用高度来筛选发泡剂,并根据泡沫强度(高度)研究凝胶对泡沫的影响。通过瓶试验评价了起泡剂对凝胶的影响。在此基础上,确定了胶凝剂与泡沫剂的最佳浓度比,并将其应用于岩心级驱替,进一步研究了这种泡沫-凝胶混合工艺的潜力。体积结果表明,在一些聚合物样品中,加入高达4:1泡沫与凝胶浓度比的凝胶剂会产生足够的泡沫。然而,只有两个泡沫凝胶样品产生了强凝胶。增加泡沫浓度延迟了凝胶时间,在一些样品中,溶液不凝胶。通过岩心驱油实验,得到了泡沫、泡沫-凝胶、凝胶三种不同的顺性控制工艺的阻力系数(RF)和残余阻力系数(RRF)。泡沫凝胶注射比常规泡沫具有更高的RF和RRF值。然而,常规凝胶的RF和RRF值甚至高于泡沫凝胶。结合两种最广泛使用的一致性控制方法(泡沫和凝胶)可以取得平衡。泡沫凝胶可以提供一种比泡沫更深层、更可持续的处理方法,另一方面,它比凝胶更实用、成本更低。我们的实验室结果还表明,在高盐度和高温碳酸盐中,这种协同的一致性控制是可以实现的,并且效果显著。
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