砂岩储层高岭石细颗粒对阿曼低矿化度水驱中油采收率的影响

Ibrahim Al Hadabi, K. Sasaki, Y. Sugai, Nobuhiko Kano
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引用次数: 1

摘要

研究了阿曼砂岩储层低矿化度水驱过程中高岭石细颗粒运移和润湿性蚀变的影响。阿曼油田目前采用的是储层盐水回注水驱,而LSW是提高石油产量的一种方法。然而,随着原油的析出,在生产和地面设施中也有大量的油泥沉淀。在本实验研究中,从生产设施的撇油槽中取样阿曼中间油(API度为30°)和油泥。采用激光粒度分布仪、扫描电镜(SEM)、x射线衍射仪(XRD)和x射线衍射仪(SQX)对分离后的粘土颗粒进行了理化性质分析。此外,利用三种不同条件的阿曼油和高岭石细颗粒饱和的Berea砂岩岩心进行了盐水和LSW水驱试验,以模拟储层条件下的粘土颗粒。试验采用平均粒径为0.4μm的高岭石颗粒浆体。第1岩心只饱和油,第2岩心先充入高岭石细颗粒浆液再饱和油,第3岩心充入高岭石细颗粒浆液再饱和油。卤水驱后LSW驱油的结果表明,含高岭石细颗粒情况下的原油采收率比仅油采收率提高30%。此外,含高岭石颗粒岩心的润湿性比不含高岭石颗粒岩心的润湿性更强。利用Zeta电位测定了高岭石颗粒在盐水和水中的表面电荷。高岭石细颗粒在卤水中负电荷为-15 mV,而用于LSW驱替试验的LSW中负电荷为-50 mV。这一差异说明水驱试验中采收率的提高是由岩心中的高岭石微粒引起的。对LSW淹水出水中的离子进行了追踪,发现Ca2+和Mg2+的浓度分别从初始浓度722和788 ppm急剧下降到34和26 ppm, pH从6.8增加到9.0以下。这些结果清楚地表明,在LSW驱油过程中,由于油、水和高岭石颗粒之间的相互作用,高岭石颗粒具有降低Sor和将润湿性转变为水润湿性的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effects of Kaolinite Fine Particles in Sandstone Reservoir on Omani Medium Oil Recovery by Low-Salinity Water Flooding
The effect of kaolinite fine particles migration and wettability alteration during low salinity water-flooding (LSW-flooding) has been investigated for Omani sandstone reservoirs. Water flooding by re-injecting the reservoir brine is currently operated in the subjected Omani oil fields, and LSW is one of the operations to improve the oil production. However, relatively large amount of precipitated oil sludge was observed in the production and surface facilities along with the produced crude oil. In present experimental study, Omani intermediate oil (API gravity of 30°) and oil sludge were sampled from a skimming tank in the production facility. The physical and chemical characteristics of the clay particles were analyzed by a laser particle size distribution analyzer, SEM, XRD, and SQX after separated from oil. Furthermore, water-flooding tests by brine and LSW were carried out using Berea sandstone cores saturated by three different conditions of the Omani oil and kaolinite fine particles to simulate clay particles in the reservoir conditions. The kaolinite-particles slurry of 0.4μm in average size were used for the tests. The first core was saturated with oil only, the second one was filled up with kaolinite fine particles slurry then saturated with the oil, and the third one was saturated with the mixture of kaolinite-particles slurry and the oil. The results of LSW flooding after brine flooding showed that 30 % increase of oil recovery was obtained in the cases including kaolinite fine particles compared to that of oil only. In addition, the wettability of the cores contained kaolinite fine particles showed stronger water-wettability than the core without kaolinite. Zeta potential was measured to investigate the surface charge of kaolinite-particles in brine and water. The kaolinite fine particles were negatively charged as -15 mV in the brine, while it was -50 mV in the LSW used for the LSW flooding test. This difference has explained that the increase of oil recovery ratio in the water-flooding test was induced by kaolinite fine particles in the cores. The ions were traced in the effluents in LSW flooding, and it was found that the concentration of Ca2+ and Mg2+ reduced sharply from their initial concentration of 722 and 788 ppm to 34 and 26 ppm respectively with pH increasing from 6.8 to below 9.0.Those results indicate clearly that the kaolinite fine particles have a function to reduce the Sor and shift the wettability to water-wet that attributed to the interactions between oil, water and kaolinite-particles in the process of LSW flooding.
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