基于临时堵漏剂和凝胶成分的新型断水方法

IF 1.7 0 ENGINEERING, PETROLEUM SOCAR Proceedings Pub Date : 2023-06-30 DOI:10.5510/ogp2023si100837
Elchin F. Veliyev, A. D. Shovgenov
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引用次数: 0

摘要

本文介绍了一种新型无钻机自选择性关水技术的实验室开发情况。该技术包括设计和泵送三种不同的流体,按照特定顺序通过裂缝岩心塞。第一种流体用于暂时封堵多孔介质,同时在裂缝中自由移动。第二种流体是交联聚合物凝胶剂,在第一种流体之后立即注入,压力低于地层的压裂压力,以封堵裂缝。第三种流体是一种基于酶的化学破碎剂溶液,对其去除过滤形成材料的效果进行了评估。使用高压高温岩心流装置进行了处理和流动研究。总之,本研究提出的水控制技术为压裂井和高异常井提供了一种低成本的解决方案。当含油基质与导水裂缝之间存在明显的渗透率对比时,该技术尤为有效。研究结果表明,该技术能成功封堵裂缝,并将多孔介质的污染降到最低。这项研究还强调了在现场应用这项技术时需要考虑的重要因素。建议在现场应用该技术之前,先在模拟储层条件下进行定制的实验室调查。这将有助于优化处理设计,确保其在实际应用中的有效性。关键词:关水;临时封堵剂;凝胶成分;岩心注水;渗透率对比。
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Novel water shut off method based on temporary plugging agent and gel composition
This article presents the laboratory development of a novel rigless, self-selective water shut-off technique. The technique involves the design and pumping of three different fluids through fractured core plugs in a specific sequence. The first fluid serves to temporarily block porous medium while moving freely through fractures. The second fluid is a cross-linking polymer gelant, which is injected immediately after the first fluid at a pressure below the fracture pressure of the formation to block fractures. An enzyme-based chemical breaker solution, serving as the third fluid, is evaluated for removing the filter-forming materials. The treatment and flow studies are conducted using a high-pressure, high-temperature core flow setup. In conclusion, the developed water control technology presented in this study offers a low-cost solution for fractured and high-anomaly wells. The technology is particularly effective when there is a significant permeability contrast between the oil-bearing matrix and water-conductive fractures. The results demonstrate a successful blockage of fracture, with minimal contamination of porous medium. The study also highlights important factors to consider for the field application of this technology. It is recommended to conduct customized laboratory investigations under simulated reservoir conditions prior to implementing the technology in the field. This will help optimize the treatment design and ensure its effectiveness in real-world applications. Keywords: water shut-off; temporary blocking agent; gel composition; coreflood; permeability contrast.
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来源期刊
SOCAR Proceedings
SOCAR Proceedings ENGINEERING, PETROLEUM-
CiteScore
3.00
自引率
82.40%
发文量
0
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