期刊文献+

聚合物溶液在高盐中低渗透油藏中的适应性——以吐哈雁木西油田为例 被引量:7

Reservoir Adaptability of Polymer Solution in High Salinity and Mid-low Permeability Reservoirs——Taking Yanmuxi Oilfield of Tuha as an Example
下载PDF
导出
摘要 吐哈雁木西油田为高盐中低渗透油藏,目前已经进入特高含水率开发阶段。为提高该油田的采收率,以油田储层地质特征和流体性质为模拟对象,开展了聚合物溶液油藏适应性研究。结果表明,聚合物相对分子质量和浓度对聚合物溶液与岩心的配伍性均有影响。当聚合物质量浓度为300数900 mg/L、相对分子质量为800×10^4数2000×10^4时,聚合物溶液对应的渗透率极限范围为20×10^-3数70×10-3μm^2。在聚合物相对分子质量一定时,随聚合物浓度增加,渗透率极限增加,聚合物分子线团尺寸Dh呈指数型增加;在聚合物浓度一定时,随聚合物相对分子质量增加,渗透率极限和Dh增大。由渗透率极限岩心孔隙半径中值与Dh间的关系可以得到对应的配伍区和堵塞区。对于雁630区块,油层累积厚度比达到60%时对应的储层渗透率为60.5×10^-3μm^2,采用相对分子质量1700×10^4和900 mg/L聚合物溶液可以满足进入规定储层厚度的要求。若采用相对分子质量较低的聚合物,则聚合物浓度需相应提高。 Yanmuxi oilfield of Tuha is a high salinity and mid-low permeability reservoir,which has entered the stage of ultra-high water cut development.In order to improve the oil recovery of the oilfield,the adaptability of polymer solution and reservoir was studied by taking the geological characteristics and fluid properties of the reservoir as the simulation object.The results showed that the relative molecular weight and concentration of polymer affected the compatibility of polymer solution and core.When the mass concentration of polymer was 300—900 mg/L and the relative molecular weight was 800×10^4—2000×10^4,the permeability limit of polymer solution was 20×10^-3—70×10^-3μm^2.When the relative molecular weight of polymer was fixed,the permeability limit increased with the increase of polymer concentration,and the molecular thread size(Dh)increased exponentially.When the polymer concentration was constant,the permeability limit and Dh increased with the increase of polymer molecular weight.According to the relationship between the mid value of core pore radius and Dh,the corresponding compatibility area and plugging area could be obtained.For Yan630 block,the reservoir permeability was 60.5×10^-3μm^2 when the percentage of cumulative reservoir thickness reached 60%.The requirement of entering the prescribed reservoir thickness could be met by using polymer solution with relative molecular weight of 1700×104 and concentration of 900 mg/L.If the polymer with lower molecular weight was used,the polymer concentration should be increased accordingly.
作者 陈超 张立东 尹玉川 王崇先 卢祥国 吕金龙 王威 闫阳 CHEN Chao;ZHANG Lidong;YIN Yuchuan;WANG Chongxian;LU Xiangguo;LYU Jinlong;WANGWei;YAN Yang(Oil Production Engineering Institute,Tuha Oilfield Branch,PetroChina,Shanshan,Xinjiang 838200,P R of China;Key Laboratory of Enhanced Oil and Gas Recovery,Ministry of Education,Northeast Petroleum University,Daqing,Heilongjiang 163318,P R of China;Petroleum Engineering Research Institute,Dagang Oilfield,Tianjin 300450,P R of China)
出处 《油田化学》 CAS CSCD 北大核心 2019年第4期677-681,692,共6页 Oilfield Chemistry
基金 中国石油天然气股份有限公司科学研究与技术开发项目“新疆油田和吐哈油田勘探开发关键技术研究与应用”(项目编号2017E-0407)
关键词 高盐 中低渗透油藏 聚合物 渗透率极限 物理模拟 雁木西油田 high salt mid-low permeability reservoir polymer permeability limit physical simulation Yanmuxi oilfield
  • 相关文献

参考文献20

二级参考文献131

共引文献902

同被引文献85

引证文献7

二级引证文献10

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部