POLYMER WATERFLOODING TECHNOLOGY AS A METHOD OF INCREASING OIL RECOVERY

IF 0.3 Q4 ENGINEERING, CHEMICAL

Chemical and Petroleum Engineering Pub Date : 2023-05-30 DOI:10.17122/ngdelo-2023-2-92-98

N.R. Yаrkееvа, A.I. Bakhtegareev, A. Pavlova

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Abstract

Oil production is divided into several stages. Primary production is carried out at the expense of energy associated with relatively high pressure in the reservoir. This reservoir energy decreases over time, and oil extraction becomes less intense. Then secondary oil production is used. This stage consists in pumping fluids into the reservoir. These include water and gas. After these stages, and with a certain time of well operation, the efficiency of oil production decreases to the extent that it becomes unprofitable. Then comes tertiary oil production. At this stage of the development of the deposit, various reagents are used, which have a special effect on the formation and, thereby, there is a significant increase in oil recovery. Polymer flooding is one example of this stage of deposit operation. The application of this method gives a significant increase in the total amount of oil raised to the surface. The increase in oil recovery occurs due to the creation of hydraulic resistance for the flow of water from the injection well to the production well in wellwashed parts of the formation. The closure of the washed zones allows water to linger in the reservoir, thereby forcing it to find new flow paths to the producing well, while at the same time dragging oil out of stagnant zones. The polymers used are usually divided into types. Each type is determined by their structure and the method of their production. They also have various properties that determine the possibility of using a particular polymer in a particular deposit. The dependences of the increase in ORF on the properties of the reservoir and fluid were analyzed when using polymer flooding at various deposits.

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聚合物水驱技术是提高采收率的一种方法

石油生产分为几个阶段。初级生产是以消耗与储层相对高压相关的能量为代价的。随着时间的推移，储层的能量会减少，石油开采的强度也会降低。然后进行二次采油。这一阶段包括将流体泵入储层。这些包括水和气。经过这些阶段后，随着油井运行一段时间，采油效率下降到无利可图的程度。然后是第三次采油。在矿床开发的这个阶段，使用了各种试剂，这些试剂对地层有特殊的作用，从而显著提高了石油采收率。聚合物驱就是这一阶段作业的一个例子。这种方法的应用显著增加了浮到地面的油的总量。采收率的提高是由于在地层的洗井部分，水从注入井流向生产井时产生了水力阻力。冲刷层的关闭使得水滞留在储层中，从而迫使水寻找新的流向生产井的路径，同时将石油从停滞层中拖出。所使用的聚合物通常分为不同类型。每种类型都是由它们的结构和生产方法决定的。它们还具有各种特性，这些特性决定了在特定沉积物中使用特定聚合物的可能性。在不同的储层采用聚合物驱时，分析了ORF的增加与储层和流体性质的关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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.