Feasibility of Ion-Modified Water for Low Salinity Water Flooding: A Case Study for Ultra-High-Salinity Carbonate Reservoir in Akanskoe Oilfield Tatarstan, Russia

M. Varfolomeev, Mojtaba Rezaei Koochi, C. Yuan, R. Khayrtdinov, A. Mustafin, M. Glukhov, R. Kadyrov, V. Sudakov, S. Usmanov
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引用次数: 2

Abstract

This paper presents the feasibility of the application of ion-modified water for enhanced oil recovery (EOR) in low permeable carbonate reservoir with ultra-high salinity of more than 220000 mg/L. Influence of different ions on wettability alteration, interfacial tension (IFT), scale tendency, recovery factor, and water injectivity was investigated. For choosing the optimized injection-water sequence, different types of water (formation water, distilled water, fresh water, and ion-modified water) were used. First, their effects on wettability alteration by measuring contact angle (oil-water-rock) and IFT were evaluated. Then, core flooding experiments were carried out to investigate how different injection sequence affects the oil recovery and injectivity. Furthermore, the scale tendency of different salts was simulated. The results showed that Mg2+ is the most effective ion. The addition of Mg2+ can fast change the oil-wet (130°) carbonate rock to water-wet (29°). The presence of mono-valent ions has negative effects on the effectiveness of Mg2+ on wettability alteration. Also, the presence of Mg2+ in fresh water and distilled water can reduce oil-water IFT two times lower. Core flooding experiments showed that after fresh water or formation water flooding (until 100% water cut), the sequent diluted formation water (diluted 10 times) yielded incremental oil recovery of about 3-5%, while the Mg2+ modified water obtained incremental oil recovery of about 8-18%. This indicates that Mg2+ modified water has a promising prospect in EOR in carbonate reservoirs. A comprehensive analysis combining contact angle measurements, IFT testing, and core flooding experiments indicates that the high efficiency of Mg2+ modified fresh water for EOR mainly benefits from its strong wettability alteration ability. In addition, it was found that the existence of Mg2+ and SO42− can reduce the tendency of precipitation of salts compared with using only fresh water or diluted formation water. This work proves that ion-modified water by adding Mg2+ to fresh water can be an effective, low cost and environment-friendly EOR method for low-permeability carbonate reservoirs with ultra-high salinity. Simultaneously, this research provides some basic data that can help to enrich the theory for developing low salinity water flooding for EOR.
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离子改性水用于低矿化度水驱的可行性——以俄罗斯鞑靼斯坦Akanskoe油田超高矿化度碳酸盐岩油藏为例
介绍了离子改性水应用于220000 mg/L以上超高矿化度低渗透碳酸盐岩储层提高采收率的可行性。研究了不同离子对润湿性变化、界面张力、结垢倾向、采收率和注水能力的影响。为了选择最佳注水顺序,采用了不同类型的水(地层水、蒸馏水、淡水和离子改性水)。首先,通过测量接触角(油-水-岩)和IFT来评价它们对润湿性变化的影响。通过岩心驱油实验,研究了不同注入顺序对采收率和注入能力的影响。此外,还模拟了不同盐类的结垢趋势。结果表明,Mg2+是最有效的离子。Mg2+的加入能使130°的油湿型碳酸盐岩快速转变为29°的水湿型碳酸盐岩。一价离子的存在对Mg2+润湿性改变的有效性有负面影响。此外,淡水和蒸馏水中Mg2+的存在可使油水IFT降低2倍。岩心驱油实验表明,淡水或地层水驱油(至含水率100%)后,后续稀释地层水(稀释10倍)的产油量增量约为3-5%,而Mg2+改性水的产油量增量约为8-18%。这表明Mg2+改性水在碳酸盐岩储层提高采收率方面具有广阔的应用前景。结合接触角测量、IFT测试和岩心驱替实验综合分析表明,Mg2+改性淡水提高采收率的高效主要得益于其较强的润湿性蚀变能力。此外,与仅使用淡水或稀释的地层水相比,Mg2+和SO42−的存在可以降低盐的沉淀趋势。本研究证明,在淡水中加入Mg2+离子改性水是一种有效、低成本、环保的超低矿化度碳酸盐岩低渗透储层提高采收率方法。同时,本研究也为开发低矿化度水驱提高采收率提供了一些基础数据。
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