化学工程2026,Vol.54Issue(3):27-32,6.DOI:10.3969/j.issn.1005-9954.2026.03.005
OP-20与DSS二元复合驱油体系定量研究
Quantitative study on dual combination of OP-20 and DSS flooding system
摘要
Abstract
A novel method was developed for detecting the binary surfactant compound system of OP-20(octylphenol polyoxyethylene ether)and DSS(sodium dodecyl sulfonate).The absorbance and critical micelle concentration ccmc of OP-20 in the compound system were influenced by DSS,making it impossible to accurately determine the OP-20 concentration using UV spectroscopy.Upon adding 0.300 mmol/L of DSS,the absorbance of 0.180 mmol/L OP-20 at the maximum absorption wavelength of 223 nm rose from 1.582 to 1.642,while the ccmc of OP-20 decreased from 0.193 mmol/L to 0.182 mmol/L.The results show that the addition of β-CD can destroy the aggregation of OP-20 into micelles,and reduce the influence of DSS on the determination of OP-20 concentration in the compound system.After adding β-CD to OP-20,ccmc is no longer detected,and the absorbance of 0.180 mmol/L OP-20 in 0.300 mmol/L DSS solutions increases slightly from 1.634 to 1.638,increasing by only 0.20%.It can be seen that the addition of β-CD is beneficial to improve the detection accuracy of OP-20 concentration in the combination system by UV spectroscopy.The findings indicate that OP-20 does not significantly influence the detection of DSS conductivity,and the conductivity method can effectively measure the concentration of DSS in the compound system.The results of Job′s method,FT-IR and 1 H-NMR show that OP-20 enters into the β-CD cavity to form n(β-CD)∶n(OP-20)=1∶1 inclusion compound.It is the cause that β-CD eliminates the interference of DSS on OP-20 and prevents the formation of OP-20 micelles in the compound system.关键词
辛基酚聚氧乙烯醚/β-环糊精/复合体系/紫外光谱/定量分析Key words
octylphenol polyoxyethylene ether/β-cyclodextrin/compound system/ultraviolet spectrum/quantitative analysis分类
化学化工引用本文复制引用
吴瑶,杨帼君,胡亦凡,石东坡,王渊,孙建萧,朱生华,李赓..OP-20与DSS二元复合驱油体系定量研究[J].化学工程,2026,54(3):27-32,6.基金项目
国家自然科学基金资助项目(41202111) (41202111)
中国石油科技创新基金(2019D-5007-0503) (2019D-5007-0503)
中国石油集团公司西部钻探工程有限公司资助项目(2023XZ204) (2023XZ204)
