压裂液成分等因素对提高页岩储层吸油采收率的影响

Q1 Physics and Astronomy

Capillarity Pub Date : 2023-10-25 DOI:10.46690/capi.2023.12.01

Shilin Li, Zhongbin Ye, Junqi Wang, Lei Tang, Nanjun Lai

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引用次数: 0

摘要

渗吸是页岩储层发育的重要机制。为探索页岩储层自吸提高采收率的影响因素，利用页岩储层露头岩心进行了室内自发和强制自吸实验。根据渗吸恢复试验结果和渗吸理论，得到了渗吸剂成分、裂缝和压力对渗吸的影响。结果表明:渗吸曲线包括渗吸、过渡和稳定三个阶段;复合压裂液组分中，表面活性剂的影响最大，乳化剂的影响最小。复杂的裂缝结构和高温环境可以提高渗吸采收率。在高度应力敏感的页岩储层中，压力与渗吸采收率成反比。此外，在页岩储层中，渗吸剂的吞吐时间具有最佳值。当吸胀时间超过最佳值后，应更换吸胀剂，不断提高吸胀效果。研究结果可为采用渗吸技术提高采收率提供依据。文献类型:原文引号:李，生，叶，忠，王，杰，唐磊，赖宁。压裂液成分等因素对提高页岩储层吸油采收率的影响。毛细管学，2023,9(3):45-54。https://doi.org/10.46690/capi.2023.12.01

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Effects of fracturing fluid composition and other factors on improving the oil imbibition recovery of shale reservoir

Imbibition is an important mechanism of shale reservoir development. In exploring the factors affecting the enhanced recovery of shale reservoirs by imbibition, laboratory spontaneous and forced imbibition experiments were conducted using outcrop cores of shale reservoirs. The effects of imbibition agent composition, fracture, and pressure on imbibition are obtained in this work based on imbibition recovery test findings and imbibition theory. Results show that the imbibition curve includes three stages, namely, imbibition, transition, and stability. Among the components of compound fracking fluid, surfactants have the greatest impact, whereas emulsifiers have the least impact. Complex crack structures and high-temperature environments can improve imbibition recovery. Pressure is inversely proportional to imbibition recovery in the highly stress-sensitive shale reservoir. In addition, the throughput time of the imbibition agent has an optimal value in the shale reservoir. After the huff-n-puff time exceeds the optimal value, the imbibition agent should be replaced to continuously improve the imbibition effect. The research results can serve as a basis for enhancing oil recovery through imbibition. Document Type: Original article Cited as: Li, S., Ye, Z., Wang, J., Tang, L., Lai, N. Effects of fracturing fluid composition and other factors on improving the oil imbibition recovery of shale reservoir. Capillarity, 2023, 9(3): 45-54. https://doi.org/10.46690/capi.2023.12.01

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来源期刊

Capillarity Physics and Astronomy-Surfaces and Interfaces

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

2~3 weeks

期刊介绍： Capillarity publishes high-quality original research articles and current reviews on fundamental scientific principles and innovations of capillarity in physics, chemistry, biology, environmental science and related emerging fields. All advances in theoretical, numerical and experimental approaches to capillarity in capillary tube and interface dominated structure and system area are welcome. The following topics are within (but not limited to) the scope of capillarity: i) Capillary-driven phenomenon in natural/artificial tubes, porous and nanoporous materials ii) Fundamental mechanisms of capillarity aided by theory and experiments iii) Spontaneous imbibition, adsorption, wicking and related applications of capillarity in hydrocarbon production, chemical process and biological sciences iv) Static and dynamic interfacial processes, surfactants, wettability, film and colloids v) New approaches and technologies on capillarity Capillarity is a quarterly open access journal and free to read for all. The journal provides a communicate platform for researchers who are interested in all fields of capillary phenomenon.