原位热发泡体系作为稠油增产新方法的设计研究

V. N. Kozhin, A. Mikhailov, Konstantin Vasilievich Pchela, Ivan Ivanovich Kireev, Sergey V. Demin, Pavel Valerevich Roschin, Aleksandr Valerevich Nikitin
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引用次数: 0

摘要

本文介绍了实验室和过滤研究的结果,旨在改善储层条件下产热系统的热/气/化学效应(TGCE)过程,作为提高采收率方法的替代方法,如水气效应过程和泡沫注入过程。研究了以氨基磺酸钠盐和硝酸为基础的热/气合成物。此外,还评价了水溶液的离子组成和温度对表面活性剂(表面活性剂)吸引溶液表面性质的影响。过滤测试表明,使用热/气生成组合物会导致高粘度油的额外驱替。在产热/生气组合物中引入表面活性剂可促进储层模型多孔介质中的泡沫,防止气体突破,从而使驱油系数提高24%。
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Design Researches in Making In-Situ Thermal Foam System as a New Enhanced Heavy Oil Recovery Method
The paper presents the results of lab and filtration studies aimed at improving the procedure of thermal/gas/chemical effect (TGCE) with the generation of thermogenic system in reservoir conditions, proposed as an alternative to the methods of increasing oil recovery, such as water-gas effect procedure and foam injection process. The objects of research were thermal/gas generating compositions at the basis of sodium salts of sulfamic and nitric acids. Moreover, the influence of the ionic composition of the aqueous solution and temperature on the surface properties of the attracted solutions of surfactants (surfactants) was also evaluated. Filtration tests have shown that the use of a thermal/gas generating composition leads to additional displacement of high-viscous oil. The introduction of surfactants in the thermal/gas generating composition promotes foaming in the porous medium of the reservoir model and prevents gas breakthrough that leads to an increase in the oil displacement factor up to 24 %.
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