聚合物EOR和矿化度对硫酸钡结垢风险的影响

M. M. A. Kalbani, E. Mackay, K. Sorbie, L. Nghiem
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引用次数: 2

摘要

硫酸钡(BaSO4)结垢是油田作业中遇到的一个严重问题。主要研究的是水驱油田BaSO4水垢的沉淀。另一方面,聚合物驱是一种成熟的提高采收率(EOR)方法,已在许多油田成功应用。本研究研究了聚合物驱和矿化度变化对采收率(RF)、多孔介质中卤水混合和BaSO4沉淀的影响,以及生产商的结垢风险。采用油藏模拟方法进行了研究。我们使用反应输运模拟器、非均匀2D平面和垂直模型以及场比例尺3D模型进行了模拟。文献数据被用来定义控制聚合物粘度、聚合物吸附以及钡(Ba2+)和硫酸盐(SO42-)浓度的参数。我们还研究了注入低盐度水作为聚合物段塞的补充盐水的效果,以观察其对采收率和BaSO4沉淀的影响。研究表明,与常规注水相比,注入粘性聚合物段塞可减少注入盐水与地层盐水的混合,从而减少储层中BaSO4的沉积量。这种降低幅度不大,对储层渗透率的影响是边际的。然而,重要的是,粘性聚合物延缓了注入水的突破,从而延缓了BaSO4在井筒中的沉淀。聚合物吸附的作用使得聚合物前沿的移动速度比SO42前沿慢,这加速了BaSO4在井筒的沉淀,与没有吸附的情况相比,总沉淀量增加。低盐度聚合物段塞含有低SO42浓度,可以提高聚合物粘度,从而提高采收率,减少和延迟BaSO4在地层和生产层中的沉积量。聚合物驱下的盐水混合行为与普通水驱不同。这项工作首次表明,这会影响储层中沉淀的BaSO4垢的数量,从而影响潜在垢在井筒中沉积的时间和数量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of Polymer EOR and Salinity on Barium Sulphate Scale Risk
Barium Sulphate (BaSO4) scale deposition is a serious problem encountered in oilfield operations. The precipitation of BaSO4 scale has been studied mainly for fields under water flooding. On the other hand, polymer flooding is a mature Enhanced Oil Recovery (EOR) method that has been applied successfully in many fields. This study investigates the effect of polymer flooding and salinity variations on oil Recovery Factor (RF) and on brine mixing and BaSO4 precipitation in porous media and the scale risk in producers. Reservoir simulation has been used to carry out the study. We have performed simulations using a reactive transport simulator and heterogeneous 2D areal and vertical models and a field scale 3D model. Data from literature have been utilized to define parameters that control polymer viscosity, polymer adsorption and barium (Ba2+) and sulphate (SO42-) concentrations. We have also studied the effect of injecting a low salinity water as the make-up brine for the polymer slug to see its impact on oil recovery and BaSO4 precipitation. The study shows that the injection of a viscous polymer slug reduces the mixing between injected and formation brines and so reduces the amount of BaSO4 deposition in the reservoir compared to a normal water flood. This reduction is not large and its effect on reservoir permeability is marginal. However, importantly the viscous polymer delays the breakthrough of injected water and hence the precipitation of BaSO4 at the wellbore. Including the effect of polymer adsorption makes the polymer front move slower than the SO42- front, and this accelerates BaSO4 precipitation at the wellbore and increases the total precipitation compared to the case without adsorption. A low salinity polymer slug, which contains low SO42- concentration, improves polymer viscosity, which enhances oil recovery, and reduces and delays the amount of BaSO4 deposition in the formation and in the producers. The behaviour of brine mixing is different under polymer flooding compared to normal water flooding. This work shows for the first time that this impacts the amount of BaSO4 scale that precipitates in the reservoir, and thus the timing and amount of potential scale deposition in the wellbore.
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