基于真三轴加载物理模拟的储层定向卸载方法参数确定

IF 2.4 Q2 MINING & MINERAL PROCESSING Journal of Mining Institute Pub Date : 2022-12-30 DOI:10.31897/pmi.2022.95
V. Karev, Yuri Kovalenko, V. Khimulia, N. Shevtsov
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引用次数: 0

摘要

本文对低渗透油藏定向卸荷方法进行了理论和实验验证。这篇文章的相关性是由于现代条件下碳氢化合物资源的减少,需要创造新的高效环保技术来开发储量难以开采的碳氢化合物矿床,主要是低渗透油藏。本文介绍了套管和裸眼井附近应力-应变状态的理论研究结果。它们对于制定研究地区岩心标本的实验室测试程序是必要的。描述了一种在真三轴加载装置中井底压力降低时,对井底区域的变形过程进行物理建模的技术,以确定该过程对地层储层的影响参数,从而提高油井产能。将该方法应用于萨哈共和国(雅库特)西南部Verkhneviluchanskoye凝析油气田的低渗透储层条件。实验研究是在IPMech RAS(三轴独立加载测试系统)创建的真正三轴加载的独特科学单元上进行的。针对所研究的油田,采用定向卸载方法,确定了该方法成功应用的工艺参数:井底设计、提高井底储层渗透率所需的压降值。
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Parameter determination of the method of directional unloading of the reservoir based on physical modelling on a true triaxial loading setup
The article presents a theoretical and experimental substantiation of the method of directional unloading of the reservoir in fields with low-permeability reservoirs. The relevance of the article is due to the reduction of hydrocarbon resources in modern conditions and the need to create new efficient environmentally friendly technologies to develop hydrocarbon deposits with hard-to-recover reserves, primarily with low-permeability reservoirs. The results of a theoretical study of the stress-strain state in the vicinity of a well, both cased and open, are presented. They are necessary to develop programs for laboratory testing of core specimens from the studied fields. A technique for physical modelling of deformation processes in the bottomhole zone with a decrease in pressure at the well bottom in a true triaxial loading unit is described in order to determine the parameters of the process impact on the formation reservoir, leading to an increase in well productivity. The method was applied to the conditions of the low-permeability reservoir at the Verkhneviluchanskoye oil and gas condensate field in the southwest of the Republic of Sakha (Yakutia). Expe-rimental studies were carried out on a unique scientific unit for true triaxial loading, created at the IPMech RAS, the Triaxial Independent Loading Test System. The directional unloading method was adapted for the studied field, the process parameters of successful application of the method were determined: the bottomhole design, the drawdown values necessary to increase the permeability of the bottomhole formation zone.
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来源期刊
Journal of Mining Institute
Journal of Mining Institute MINING & MINERAL PROCESSING-
CiteScore
7.50
自引率
25.00%
发文量
62
审稿时长
8 weeks
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