Surfactant enhanced imbibition in carbonate reservoirs: Effect of IFT reduction and surfactant partitioning

Q3 Materials Science

JCIS open Pub Date : 2022-04-01 DOI:10.1016/j.jciso.2022.100045

Ziyuan Qi , Ming Han , Shaohua Chen , Jinxun Wang

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Abstract

A majority of carbonate reservoirs are preferably oil-wet or intermediate wet. Spontaneous imbibition represents an important mechanism to enhance oil production. Targeting an oil-wet carbonate reservoir with high temperature and high salinity, several surfactant formulations were investigated to improve oil production by imbibition, focusing on the capacity in interfacial tension (IFT) reduction and surfactant partitioning in water and oil phases in addition to dominant wettability alteration effect. Oil production potentials using different surfactants were evaluated by spontaneous imbibition in Amott cells at 95 °C. A base case imbibition test was conducted using a high salinity water with IFT value of 15.2 mN/m and an oil-wet carbonate core, and the oil production was 6.4% of oil originally saturated in core. Reducing the oil-water IFT to 10° mN/m magnitude achieved 4% incremental oil production beyond base case. When the IFT was further reduced to 10⁻¹ mN/m magnitude, the incremental oil production reached 10%. For the case of water-wet core and at the same IFT range, the incremental oil production was 13%. When the IFT was reduced to 10⁻² mN/m, the incremental oil production was up to 17% for the tests using oil-wet cores, and up to 23% for the water-wet counterpart. When further reducing the IFT to ultra-low magnitude of 10⁻³ mN/m, the oil production was close to that using the imbibition agents with IFT of 10⁻² mN/m magnitude. For surfactants with no obvious wettability alteration capacity, those surfactants with higher molecular fraction in oil phase and higher adsorption on rock surfaces could remove more oil from the pore wall, and yielded higher imbibition efficiency. This work systematically investigated the major effects of surfactant on oil mobilization during imbibition process, which can help for better understanding of chemical imbibition in carbonates. The findings will shed light on the selection of high performance imbibition agents for carbonate reservoirs.

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表面活性剂增强碳酸盐岩储层的渗吸:IFT降低和表面活性剂分配的影响

大多数碳酸盐岩储层优选油湿性或中湿性。自发渗吸是提高原油产量的重要机制。针对高温高矿化度的油湿型碳酸盐岩油藏，研究了几种表面活性剂配方，以通过吸胀提高产油量，重点研究了表面活性剂在水相和油相中的界面张力(IFT)降低能力和表面活性剂在水相和油相中的分配，以及主要的润湿性改变效果。在95℃条件下，利用Amott细胞的自发渗吸来评价不同表面活性剂的采油潜力。采用IFT值为15.2 mN/m的高矿化度水和油湿型碳酸盐岩心进行了基本情况渗吸试验，其产油量为岩心原始饱和油的6.4%。将油水IFT降低到10°mN/m量级，使原油产量比基本情况增加4%。当IFT进一步降低到10 ~ 1 mN/m量级时，增产幅度达到10%。对于水湿岩心，在相同的IFT范围内，产油量增加了13%。当IFT降至10 - 2 mN/m时，采用油湿岩心的增产幅度可达17%，采用水湿岩心的增产幅度可达23%。当进一步降低IFT至10−3 mN/m的超低量级时，其产油量与使用IFT为10−2 mN/m的吸附剂时接近。对于无明显润湿性改变能力的表面活性剂，油相分子分数高、在岩石表面的吸附能力强的表面活性剂能从孔壁上去除更多的油，具有较高的吸油效率。系统研究了表面活性剂在吸胀过程中对原油动员的主要影响，有助于更好地理解碳酸盐岩的化学吸胀。这一发现将为碳酸盐岩储层选择高性能渗吸剂提供指导。

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