用皮克林泡沫储存二氧化碳和粉煤灰提高采收率

Qichao Lv, Tongke Zhou, Xing Zhang, Xinshu Guo, Z. Dong
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摘要

长期以来,二氧化碳泡沫一直用于提高石油采收率(EOR)和碳捕获、利用和储存。请注意,传统的二氧化碳泡沫侧重于流动性控制和裸二氧化碳的储存。然而,由于泡沫不稳定,该技术的存储效率和提高采收率较低。本研究探讨了利用皮克林泡沫进行提高采收率的二氧化碳和粉煤灰的地质封存。其目的是获得一种廉价的提高采收率和储存温室气体和大气污染物的方法。采用沃林搅拌法制备皮克林泡沫。通过测量界面张力和界面粘弹性模量来评价CO2/液界面增强效果。通过非均质砂层驱油实验,研究了CFA增强CO2泡沫驱油的调剖能力和驱油性能。从动态方面对CO2和CFA的储存量进行了测量,以证明其储存量规律。添加CFA后,水性泡沫的稳定性明显提高。经CFA颗粒稳定的泡沫的半衰期比不经CFA颗粒稳定的泡沫的半衰期增加了11倍以上。随着CFA颗粒浓度的增加,CO2/发泡溶液的界面膨胀粘弹性模量增大,表明界面由类液向类固转变。在非均质多孔介质中进行的驱油实验表明,在注入含CFA的CO2泡沫后,相对低渗透率的砂层中有更多的产出液被驱出。与不含CFA颗粒的泡沫相比,CFA稳定泡沫的原油采收率提高了28.3%。在CO2泡沫中加入CFA可以增强非均质多孔介质中CO2的固存,并且CFA稳定泡沫对CO2和CFA的储存表现出较强的抗水蚀能力。这项工作介绍了一种提高采收率和储存二氧化碳和大气污染物颗粒的双赢方法。利用煤燃烧生成的CFA作为CO2泡沫增强剂,提高了泡沫膜的界面膨胀粘弹性,提高了CO2的动态封存能力。此外,CO2和CFA的储存有助于提高波及效率,从而提高EOR。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Storage of CO2 and Coal Fly Ash using Pickering Foam for Enhanced Oil Recovery
CO2 foams have been used for a long time for enhanced oil recovery (EOR) and carbon capture, utilization, and storage. Note that conventional CO2 foam focuses on mobility control and storage of bare CO2. However, this technology has suffered from low storage efficiency and EOR because of foam instability. In this study, the geological storage of CO2 and coal fly ash (CFA) using Pickering foam for EOR was explored. The aim is to obtain an inexpensive method for EOR and storage of greenhouse gases and atmospheric pollutants. The Pickering foam was prepared using Waring blender method. The experiments were conducted to evaluate CO2/liquid interface enhancement by measuring the interfacial tension and interfacial viscoelastic modulus. As per the heterogeneous sandpack flooding experiments, the profile control capacity and the performance of oil displacement using CO2 foam enhanced by CFA were investigated. The amount of storage from dynamic aspects of CO2 and CFA was measured to demonstrate the storage law. The stability of aqueous foam was improved significantly after the addition of CFA. The half-life time of foam stabilized by CFA particles increased by more than about 11 times than that of foam without CFA particles. The interfacial dilatational viscoelastic modulus of CO2/foaming solution increased with CFA particle concentration increasing, indicating the interface transformed from liquid-like to solid-like. Flooding experiments in heterogeneous porous media showed that more produced fluid was displaced from the relatively low-permeability sandpack after the injection of CO2 foam with CFA. The oil recovery by CFA stabilized foam was improved by ~28.3% than that of foam without CFA particles. And the sequestration of CO2 in heterogeneous porous media was enhanced with the addition of CFA to CO2 foam, and the CFA stabilized foam displayed a strong resistance to water erosion for the storage of CO2 and CFA. This work introduces a win–win method for EOR and storage of CO2 and atmospheric pollutant particles. CFA from coal combustion was used as an enhancer for CO2 foam, which improved the interfacial dilatational viscoelasticity of foam film and the dynamic storage of CO2. Furthermore, the storage of CO2 and CFA contributed to improvement in sweep efficiency, and thus EOR.
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