利用化学试剂-超流体水SFW提高多孔介质中水的流动性开发低渗透油藏

V. Zatsepin, F. Gubaidullin, A. Ushakova, S. Miftakhov
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摘要

“超流体水”(SFW)是一种超低浓度聚电解质水溶液。本工作的目的是对多孔介质中带试剂流动的水进行实验室调查和现场研究。观察了SFW添加剂的水动力学变化-流动性的增加。对不同渗透率岩心样品的残余阻力系数的变化进行了过滤研究。进行现场试验时采用了现场地质和地球物理研究的标准技术和方法。在不同的流速下进行温度和剖面测井,分别是水和水加SFW (SWF浓度高达1%)。室内研究表明,残余电阻系数小于岩心样品的绝对渗透率,其依赖关系近似为幂函数。建立的实验室依赖性证实了在注水井中使用SFW试剂进行一致性控制的可能性,这确定了现场研究的目标和目的。现场研究(我们提供了4口注入井的成功处理信息,没有提供不成功处理的信息)表明,使用SFW试剂可以显著提高井的注入能力(210%以上)。使用SFW试剂前后的注入能力曲线估算显示,通过加入之前未被水排干的特低渗透层(小于1-2 mD),延长了作业间隔。同时,在这些条件下,SFW技术的效率估计高于与储层注气相关的技术。所取得的成果使我们能够断言使用SFW技术开发低渗透油藏的前景。将该技术应用于采油工程实践,可使油田开发和采油效率提高15-20%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of Low-Permeability Reservoirs by Increasing the Mobility of Water in a Porous Medium Using a Chemical Reagent - Super Fluid Water SFW
The considered "Super Fluid Water" (SFW) is developed aqueous solution of polyelectrolytes with extra low concentration. The aim of the present work is laboratory investigations and field studies of the water with reagent flow in porous media. Change in hydrodynamics of water flow – the mobility increase was observed for the SFW additives. Filtration studies of changes in the value of the residual resistance factor for core samples with different permeability were carried out. The conducting field tests were held using standard techniques and methods of field geological and geophysical studies. Temperature and profile logging were performed at different flow rates, with water and water with SFW injection (SWF concentration up to 1%). Laboratory studies have shown that the value of the residual resistance factor is lower than the value of the absolute permeability of the core sample, and the dependence is approximated by the power function. The established laboratory dependence confirmed the possibility of using the SFW reagent for conformance control in injection wells, which determined the goals and objectives of field studies. The field studies were performed (we provide the information about the success treatments of 4 injection wells, no information about the unsuccessful treatments) and showed that the use of the reagent SFW leads to a dramatic increase of the injection capacity of the wells (210% and more). Estimation of the injection capacity profile before and after the use of SFW reagent showed the extension of operating intervals by including of extra low permeable layers (less than 1-2 mD) not previously drained by water. At the same time, the efficiency of SFW technology in these conditions is estimated to be higher than the technologies associated with gas injection into the reservoir. The achieved results allow us to assert the prospects of using SFW technology for the development of low-permeable reservoirs. The employment of this technology in the practice of oil recovery engineering will increase the efficiency of field development and oil recovery by 15-20%.
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