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CO₂乳液的界面特性对其渗流特征的影响
李兆敏¹,刘己全²,李松岩¹,王鹏²,卢培华²,陈庆国²
(1.中国石油大学石油工程学院,山东青岛 266580;2.中国石油塔里木油田分公司油气工程研究院,新疆库尔勒 841000)

摘要:

CO₂乳液在驱油过程中能够有效控制CO₂流度,大幅改善CO₂驱油效果,提高采收率。选择AOT作为CO₂乳液用表面活性剂,通过TRACKER-H界面流变仪测定AOT水溶液与CO₂体系在不同温度压力条件下的界面特性,通过岩心实验测定不同温度压力条件下CO₂乳液的封堵和调剖分流效果。结果表明:随着压力的增大,CO₂乳液界面张力随之降低,界面黏弹性随之增大;随着温度的增加,CO₂乳液界面张力增加,界面黏弹性降低;温度越高越不利于乳液的封堵,压力越高越有利于乳液的封堵,这与体系界面特性研究所得的结果相对应,说明CO₂乳液的封堵效果与其界面特性有关;温度和压力通过影响CO₂乳液的界面特性从而影响其渗流特征,CO₂乳液的强度越高、体系界面张力越低、界面黏弹性越好,其分流效果也会越明显。

关键词: CO₂乳液界面特性岩心封堵调剖分流

DOI：10.3969/j.issn.1673-5005.2017.05.013

分类号::TE 357.46

文献标识码:A

基金项目:国家自然科学基金项目(51304229)；教育部博士点基金项目(20120133110008)；中央高校基本科研业务费专项(14CX02043A,14CX02185A)

Influence of CO₂ emulsion interfacial characterization on porous flow

LI Zhaomin¹, LIU Jiquan², LI Songyan¹, WANG Peng², LU Peihua², CHEN Qingguo²

(1.School of Petroleum Engineering in China University of Petroleum, Qingdao 266580, China;2.Research Institute of Oil and Gas Engineering, Tarim Oilfield Company, Korla 841000, China)

Abstract:

In the process of oil displacement, CO₂ emulsion can effectively control the mobility of CO₂ which significantly improves the CO₂ flooding effect and EOR. The AOT was selected as surfactants for CO₂ emulsion. And the interfacial property of AOT aqueous solution and CO₂ was characterized through TRACKER-H interfacial rheometer at different temperatures and pressures. Then the CO₂ emulsion plugging and profile control shunt effect were evaluated through the core plugging experiment under different temperatures and pressures. It is found that with the increase of pressure, the interfacial tension of CO₂ emulsion decreases, while the interfacial viscoelasticity increases. And with the increase of temperature, the interfacial tension of CO₂ emulsion increases, but the interfacial viscoelasticity decreases. It is also concluded that the high temperature is unfavorable to the emulsion plugging, while the high pressure is favorable to the emulsion plugging, which corresponds to the interfacial viscoelasticity, indicating CO₂ emulsion plugging effect is related to its interfacial viscoelasticity. The results show that the temperature and pressure can affect the porous flow of CO₂ emulsion via influencing its interfacial properties. Higher the strength of the CO₂ emulsion, lower interfacial tension and better viscoelasticity can lead to signficant shunt effect.

Key words: CO₂ emulsion interfacial characterization core plugging profile shunt