生物聚合物溶液的体积流变特性及其在提高采收率方面的应用潜力

K. Clinckspoor, V. H. Ferreira, R. Moreno
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引用次数: 2

摘要

提高石油采收率(EOR)技术对于提高石油产量至关重要,聚合物驱已成为巴西盐下油藏前景广阔的技术之一。考虑到盐下条件,与合成聚合物相比,生物聚合物具有一系列优势,例如耐高盐、高温和机械降解。从这个意义上说,体流变学是性能分析工作流程的第一步。本文介绍了四种生物聚合物(裂ophyllan、核葡聚糖、瓜尔胶和黄原胶)在浓度为10至2,300 ppm(通常适用于EOR应用)、温度为25、40、50、60和70℃以及总溶解固体浓度为30,100 ppm和69,100 ppm的两种盐水中的流变学分析,旨在模拟盐下典型条件下海水以及注入海水和储层水之间的混合物。测定了每种聚合物溶液的假塑性行为、重叠浓度和活化能。聚合物的结构差异导致了不同的流变行为。裂叶植物是最有前途的,因为它的增粘能力比黄原胶等合成聚合物要高。它在高温下的电阻高于合成聚合物。核葡聚糖的表现与黄原胶相似,它是非离子型的。瓜尔胶的粘度最低,重叠浓度最高,粘度衰减最明显。据作者所知,考虑到盐下条件下的粘度、重叠浓度和活化能,本文中提出的生物聚合物的流变学研究在文献中是不可用的,这将有利于未来依赖于这些信息的工作
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bulk rheology characterization of biopolymer solutions and discussions of their potential for enhanced oil recovery applications
Enhanced oil recovery (EOR) techniques are essential to improve oil production, and polymer flooding has become one of the promising technologies for the Brazilian Pre-Salt scenario. Biopolymers offer a range of advantages considering the Pre-Salt conditions compared to synthetic polymers, such as resistance to high salinity, high temperature, and mechanical degradation. In that sense, bulk rheology is the first step in a workflow for performance analysis. This paper presents a rheological analysis of four biopolymers (Schizophyllan, Scleroglucan, Guar Gum, and Xanthan Gum) in concentrations from 10 to 2,300 ppm, generally suitable for EOR applications, in temperature levels of 25, 40, 50, 60 and 70°C and two brines of 30,100 ppm and 69,100 ppm total dissolved solids, which aim to model seawater and the mixture between injected seawater and reservoir water typical in Pre-Salt conditions. The pseudoplastic behavior, the overlap concentration, and the activation energy were determined for each polymer solution. The structural differences in the polymers resulted in different rheological behaviors. Schizophyllan is the most promising, as its viscosifying power is higher than synthetic polymers comparable to Xanthan Gum.  Its resistance at high temperatures is higher than that of synthetic polymers. Scleroglucan behaved similarly to Xanthan Gum, with the added advantage of being nonionic. Guar Gum had the lowest viscosities, highest overlap concentrations, and most pronounced viscosity decay among the tested polymers. To the author’s knowledge, rheological studies of the biopolymers presented here, considering the viscosities and the overlap concentration and activation energy, in the Pre-salt conditions, are not available in the literature and this will benefit future works that depend on this information
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