摘要
为了探索较大幅度提高高含水期复杂断块油田剩余油采收率,提出了CO_2复合驱方式进行剩余油开采对策并在矿场先导试验井组取得了显著的增油降水效果,但对CO_2复合驱油体系微观增油机理的相关研究较少,亟需开展这方面的基础研究。基于CT扫描结果,结合油藏开发实际,明确了滴状和膜状剩余油为难以动用的2种剩余油类型;构建了溶解油滴模型和剥离油膜模型,利用分子动力学方法进行模拟。溶解油滴模拟结果表明,CO_2扩散至油滴中,增加其体积,然后油滴分子逐渐溶解在驱油体系中;剥离油膜分子动力学模拟结果表明,CO_2在油相中先形成扩散通道,随后CO_2优先通过扩散通道至岩石表面,CO_2在表面上形成氢键而产生吸附。
A CO2 composite flooding method was proposed for remaining oil exploitation and achieved significant effects in pilot well tests in order to improve residual oil recovery efficiency in complex fault block oilfields during high water cut period.There are few related studies on the microscopic mechanism of CO2 composite flooding,and the basic research in this field is urgently demanded.Based on the CT scanning results,combined with the actual development of reservoir,it was clear that the drop-like and film-like residual oil are two types of remain-ing oil that were difficult to recover.A dissolved oil droplet model and a stripped oil film model were constructed and simulated using a molecular dynamics method.The simulation results of the dissolved oil droplet method showed that CO2 first diffused into oil droplets and increased their volume,and then the oil droplet molecules gradually dissolved into the oil displacement system.The molecular dynamics simulation results of the stripped oil film showed that CO2 first formed diffusion channels in the oil phase,and then preferentially passed through the diffusion channels to the rock surface.CO2 formed hydrogen bonds on the surface and generated adsorption.
作者
蒋永平
JIANG Yongping(Taizhou Oil Production Plant,East China Branch of SINOPEC,Taizhou,Jiangsu 225300,China)
出处
《石油实验地质》
CAS
CSCD
北大核心
2019年第2期274-279,共6页
Petroleum Geology & Experiment
基金
中国石化科技开发部项目"洲城中高渗高含水油藏CO2复合驱油技术研究"(P17056-6)资助
关键词
溶解油滴
剥离油膜
分子动力学模拟
CO2复合驱
剩余油开发
dissolved oil droplet
detached oil film
molecular dynamics simulation
CO2 composite flooding
remaining oil recovery
