具有使用预交联聚合物体系提高碳酸盐岩油藏采收率的经验

IF 0.3 Q4 ENGINEERING, CHEMICAL

Chemical and Petroleum Engineering Pub Date : 2023-05-30 DOI:10.17122/ngdelo-2023-2-105-113

I. Ganiev, G. Z. Kalimullina, F. K. Mingalishev, R. Valeev, A. M. Belykh

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引用次数: 1

摘要

以最小的成本回收剩余油，降低采出井含水率，是成熟油田迫切需要解决的问题。在这种情况下，采用第三次油藏增产方法是有必要的，其中很大一部分是采用化学方法来提高采收率。使用分流技术的原理是通过储层压力维持系统向储层提供小圈的化学试剂，目的是通过在这些区域安装防水屏障来降低水冲刷区域的渗透率，并将水过滤流重新定向到以前未被洪水覆盖的储层区域。在本文中，我们考虑了使用水膨胀预成型颗粒聚合物体系技术作为导流剂的可能性，以提高油藏的采收率，这些油藏具有复杂的地质和物理条件，限制了许多提高采收率的试剂的使用。以含粘土粉末颗粒(重量达40%)的预交联丙烯酰胺聚合物试剂样品为例，介绍了在乌拉尔-伏尔加河地区某储层为碳酸盐岩的对象上，以预交联丙烯酰胺聚合物颗粒体系为基础的实验室研究结果和应用该技术的经验。过滤实验表明，预成型颗粒聚合物体系的注入导致流体从高渗透性模型向低渗透性模型的显著再分布。通过研究，确定了基于预成型颗粒聚合物体系的技术适用性的主要特征。对已进行的现场工作进行了分析，确定了经过处理的注入井的注入能力曲线的变化，并估计了反应生产井的额外产油量。根据分析结果，进行了更多的实验室研究，并在此基础上提出了提高预成型颗粒聚合物体系注水井处理效率的方法。

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EXPERIENCE IN USING PRE-CROSSLINKED POLYMER SYSTEMS FOR ENHANCED OIL RECOVERY IN CARBONATE RESERVOIRS

Recovering residual oil reserves and reducing the level of water cut in produced wells at minimal cost are urgent tasks for mature fields. In such conditions, the use of tertiary methods of reservoir stimulation is relevant, among which a significant share is occupied by chemical methods of enhanced oil recovery. The principle of using flow diverting technologies is to supply small rims of chemical reagents to the reservoir through the reservoir pressure maintenance system, aimed at reducing the permeability of water-flushed zones by installing a waterinsulating barrier in them and redirecting water filtration flows to reservoir zones that were not previously covered by flooding. In this paper, we consider the possibility of using the technology of water-swellable preformed particle polymer systems as flow-diverting reagents to increase oil recovery from reservoirs with complicated geological and physical conditions that limit the use of many reagents used in EOR. On the example of a reagent sample, which is a pre-crosslinked acrylamide polymer, which contains particles of clay powder (up to 40% wt.), The paper shows the results of laboratory study and experience in applying the technology based on the preformed particle polymer systems at one of the objects of the Ural-Volga region, the reservoirs of which are presented carbonate rocks. The filtration experiment showed that the injection of the preformed particle polymer systems leads to a significant redistribution of fluid flows from a more highly permeable model to a less permeable one. As a result of the research, the main features of the applicability of technology based on the preformed particle polymer systems have been identified. The analysis of the conducted field work was carried out by determining the change in the injectivity profile of the treated injection wells and estimating the additionally produced oil from the reacting production wells. Based on the results of the analysis, additional laboratory studies were carried out, on the basis of which ways were proposed to increase the efficiency of injection well treatments with preformed particle polymer systems.

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来源期刊

Chemical and Petroleum Engineering ENGINEERING, CHEMICAL-

CiteScore

0.60

自引率

33.30%

发文量

129

期刊介绍： Chemical and Petroleum Engineering publishes the latest research on Russian innovations in the field. Articles discuss developments in machinery and equipment, construction and design, processes, materials and corrosion control, and equipment-manufacturing technology. Chemical and Petroleum Engineering is a translation of the Russian journal Khimicheskoe i Neftegazovoe Mashinostroenie. The Russian Volume Year is published in English from April. All articles are peer-reviewed.