CO2/N2泡沫新概念及改进CO2-泡沫EOR工艺的优化方案

R. Gajbhiye
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摘要

氮气和二氧化碳是提高采收率(EOR)技术中最常用的气体。大多数注气过程都存在重力覆盖和粘指现象,导致采收率较低。在提高采收率(EOR)中引入泡沫,以减轻气驱过程中遇到的这些问题。在典型储层条件下,注二氧化碳达到超临界状态,使得储层条件下难以形成二氧化碳泡沫。二氧化碳泡沫有一个常见的问题,在1100 psi和31°C的超临界条件下变得更弱。因此,由于二氧化碳泡沫在超临界条件下的弱点,使用二氧化碳泡沫的优势被削弱,导致采收率较低。然而,用氮气代替一部分二氧化碳可以产生二氧化碳泡沫。它缺乏对混合物性质及其对提高采收率的影响的低估。研究了超临界条件下CO2/N2泡沫提高采收率的性能。采用N2/CO2混合泡沫提高超临界条件下的回收率,优化泡沫质量和CO2/N2比。实验结果表明,CO2/N2泡沫驱可以额外回收原始原始油(OIIP)中的油,这表明泡沫驱比纯CO2泡沫注入工艺成功地开采了更多的油。不同泡沫质量和CO2/N2比下的泡沫驱油效果对工艺性能和采收率有显著影响。因此,有必要对受泡沫质量和CO2/N2比等参数影响的CO2/N2泡沫参数驱油过程进行优化。研究还提出了一种优化CO2/N2泡沫参数的实验方法。向CO2中加入N2的概念是在超临界条件下产生CO2泡沫的一种新方法。尽管研究人员正在尝试不同的方法来产生强而稳定的二氧化碳泡沫,但向二氧化碳中加入N2可以被认为是最简单的泡沫生成方法,因为二氧化碳总是以其他气体的形式含有一些杂质,而N2可以被认为是这种气体之一,有助于产生泡沫。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel CO2/N2 Foam Concept and Optimization Scheme for Improving CO2-foam EOR Process
Nitrogen and Carbon dioxide are the most common gases utilized in enhanced oil recovery (EOR) techniques. Most of the gas injection process suffers from the gravity override and viscous fingering resulting in lower oil recovery. Foam is introduced in enhanced oil recovery (EOR) to mitigate these problems encountered during gas flooding. When it comes to the CO2-gas injection the CO2-becomes supercritical at a typical reservoir condition giving it difficulty to form CO2-foam at reservoir condition. The CO2-foam has a common problem to become weaker above its supercritical conditions of 1100 psi and 31°C. As a result, the advantages of using CO2 foam are diminished due to the weakness of CO2-foam at supercritical conditions and results in a lower recovery. However, CO2-foam can be generated by replacing a portion of CO2 with N2 gas. It lacks the understating of mixture properties and its effect on EOR. This study evaluates the performance of CO2/N2 foam at supercritical conditions for EOR. It aims to improve recovery under supercritical conditions by using N2/CO2 mixture foam and optimize the foam quality and CO2/N2 ratio. The results from the experiments showed that the CO2/N2 foam flooding recovered an additional oil of Original Initial Oil in Place (OIIP) indicating that foam flooding succeeded in producing more oil than pure CO2-foam injection processes. Also, the results of foam flooding at different foam quality and CO2/N2 ratio significantly affected the performance and recovery of the process. Hence it is necessary to optimize the CO2/N2 foam parameters flooding process which is affected by the parameters such as foam quality and CO2/N2 ratio. The study also shows an experimental approach for optimizing CO2/N2 foam parameters. The concept of adding N2 to CO2 is a novel way of generating CO2 foam at supercritical conditions. Although investigators are trying different ways to generate the strong and stable CO2- foam, adding N2 to CO2 can be considered to be the easiest way for foam generation as CO2 is always having some impurities in the form of other gases and N2 can be considered as one of such gas helps in generating the foam.
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