石油化工高等学校学报
石油化工高等學校學報
석유화공고등학교학보
JOURNAL OF PETROCHEMICAL UNIVERSITIES
2013年
6期
51-54,64
,共5页
低渗透油层%流动性%黏度损失率%界面张力%驱油效果
低滲透油層%流動性%黏度損失率%界麵張力%驅油效果
저삼투유층%류동성%점도손실솔%계면장력%구유효과
Low permeability reservoir%Mobility%Viscosity loss rate%Interfacial tension%Flooding effect
选用相对分子质量在(1.6~1.9)×107的S N F3640D聚合物,测试了该种聚合物在天然低渗透岩心上的流动性、岩心孔隙中的黏度、与甜菜碱表面活性剂二元体系的界面张力以及驱油效率。结果表明,该种聚合物在天然低渗透油层上有较高的阻力系数与残余阻力系数,表现出良好的注入性能和流度控制能力;在岩心孔隙中的黏度损失率低于低分子质量7.0×106聚合物;其甜菜碱二元复配体系与原油间的界面张力能够达到极低(10-3 mN/m)。通过天然低渗透岩心上的驱油实验可知,该种聚合物单独聚驱的化学驱采收率达到7.85%,与其复配的甜菜碱二元体系的化学驱采收率达14.75%左右,远远高于低分子质量7.0×106聚合物的采收率。因此,该种聚合物与低渗透油层有较好的匹配性,对低渗透储层的开发具有一定的指导性。
選用相對分子質量在(1.6~1.9)×107的S N F3640D聚閤物,測試瞭該種聚閤物在天然低滲透巖心上的流動性、巖心孔隙中的黏度、與甜菜堿錶麵活性劑二元體繫的界麵張力以及驅油效率。結果錶明,該種聚閤物在天然低滲透油層上有較高的阻力繫數與殘餘阻力繫數,錶現齣良好的註入性能和流度控製能力;在巖心孔隙中的黏度損失率低于低分子質量7.0×106聚閤物;其甜菜堿二元複配體繫與原油間的界麵張力能夠達到極低(10-3 mN/m)。通過天然低滲透巖心上的驅油實驗可知,該種聚閤物單獨聚驅的化學驅採收率達到7.85%,與其複配的甜菜堿二元體繫的化學驅採收率達14.75%左右,遠遠高于低分子質量7.0×106聚閤物的採收率。因此,該種聚閤物與低滲透油層有較好的匹配性,對低滲透儲層的開髮具有一定的指導性。
선용상대분자질량재(1.6~1.9)×107적S N F3640D취합물,측시료해충취합물재천연저삼투암심상적류동성、암심공극중적점도、여첨채감표면활성제이원체계적계면장력이급구유효솔。결과표명,해충취합물재천연저삼투유층상유교고적조력계수여잔여조력계수,표현출량호적주입성능화류도공제능력;재암심공극중적점도손실솔저우저분자질량7.0×106취합물;기첨채감이원복배체계여원유간적계면장력능구체도겁저(10-3 mN/m)。통과천연저삼투암심상적구유실험가지,해충취합물단독취구적화학구채수솔체도7.85%,여기복배적첨채감이원체계적화학구채수솔체14.75%좌우,원원고우저분자질량7.0×106취합물적채수솔。인차,해충취합물여저삼투유층유교호적필배성,대저삼투저층적개발구유일정적지도성。
Selection of relative molecular weight was about 1 .6 × 107 to 1 .9 × 107 SNF3640D polymer ,Lab researches were carried out on its mobility ,viscosity of core porosity ,the interfacial tension of the binary combination with betaine surfactant compound system could achieve ultra low and recovery factors .The results show that higher coefficients of resistance and residual resistance are obtained in low permeability layers .Better injection and mobility are demonstrated by the polymer;the viscosity loss rate of this polymer is lower than traditional 7 .0 × 106 low molecular polymer;the combination of the betaine surfactant compound system can attain the ultra-low interfacial tension with the oil (10 -3 mN/m ) .Moreover ,the chemical flood recovery efficiency of this polymers flooding alone on a natural rock could reach about 7 .85 percent ,the compound system could reach about 14 .75 percent ,which is far higher than traditional polymer of 7 .0 × 106 ,therefore ,this kind of polymer with low permeability reservoir has good matching ,it has a certain guidance for low permeability reservoir development .
