冲击/浸泡注入方案提高碳酸盐岩地层低矿化度水驱采收率

Karimova Marzhan, Pourafshary Peyman, Fani Mahmood
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引用次数: 0

摘要

低矿化度水的应用和注入水的离子管理影响着碳酸盐岩地层的采收率。在碳酸盐岩岩心样品上进行了不同的强迫渗吸和自发渗吸实验,以验证该智能注水技术的性能。不同的研究人员采用了各种实验和建模方法来优化智能水驱过程。为了达到更实用的条件,需要减少智能水的注入时间,以控制现场规模的制备成本。在本文中,我们介绍了不同的建模/实验研究结果,通过冲击/浸泡的思想来提高碳酸盐岩地层智能水驱的性能。不同的研究表明,注入水中Mg2+和SO42-等活性离子的存在改变了碳酸盐的润湿性,使其更亲水,也降低了油与注入盐水之间的IFT。因此,低矿化度水中活性离子浓度的增加提高了碳酸盐岩地层的采收率。本文将优化后的智能盐水用于注入,采用了新颖的注入方案。将优化后的盐水作为冲击段塞注入两个高盐度水段塞之间。这种智能水冲击驱设计用于降低低矿化度水驱的孔隙体积。在岩心和扇形尺度上对段塞流对相对渗透率曲线的影响进行了建模和分析。实验研究了冲击后浸泡时间对高矿化度普通盐水润湿性改变和采收率提高的影响。接触角测量等表征测试证实了冲击/浸泡对控制机制(如多离子交换)的改变的影响,从而导致过程中润湿性的改变。岩心驱油实验表明,在最佳设计下,冲击注入可使三次采收率提高7.8%。此外,油藏部分的建模显示,在注入冲击期间和之后的高矿化度注水期间,采收率明显增加。我们的建模/实验研究清楚地阐明了一种以高效、廉价的方式提高低矿化度水驱性能的新方法。通过这种方法,可以用较少的稀释水来获得更高的采收率,这对石油工业是有利的。
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Shock/Soaking Injection Scheme to Improve Oil Recovery in Carbonate Formations by Low Salinity Water Flooding
The application of low salinity water and ion management of the injected water affects the oil recovery in carbonate formations. Different forced and spontaneous imbibition experiments have been practiced on the carbonate core samples to show the performance of this smart water injection. Various experimental and modeling approaches have been applied by different researchers to optimize the smart waterflooding process. To achieve more practical conditions, the injection time of the smart water should be reduced to control the preparation cost on the field scale. In this paper, we present findings from different modeling/experimental studies to improve the performance of smart water flooding in carbonate formations by the idea of shock/soaking. Different researches showed that the presence of active ions such as Mg2+ and SO42- in the injection water alters the wettability of carbonates to more water-wet state and also reduces the IFT between the oil and the injected brine. Hence, spiking active ions concentration in the low salinity water improves oil recovery from carbonate formation. In this work, the optimized smart brine was used for injection with novel injection scheme. The optimized brine was set to be injected as the shock slug between two slugs of high salinity water. This smart water shock flooding was designed to reduce the pore volume of low salinity water flooding. The effect of the slug on relative permeability curves was modeled and analyzed in the core and sector scales. Also we experimentally studied the effect of soaking time after the shock on wettability alteration and improvement in recovery by re-injection of high salinity normal brine. Characterization tests such as contact angle measurement confirmed the effect of shock/soaking on alteration of governing mechanisms such as multi-ion exchange which leads to wettability alteration in the process. Our core flooding experiments showed that the shock injection at the best design can improve the tertiary recovery up to 7.8%. Also, modeling at the reservoir sector shows noticeable incremental oil recovery during the shock injection and high salinity water injection after it. Our modeling/experimental studies clearly illuminated a new approach to improve the performance of low salinity water flooding in an efficient and cheaper way. By this approach, higher oil recovery can be achieved by the application of less amount of diluted water which is beneficial for the oil industry.
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