摘要
Resin and asphaltene were separated from Daqing crude oil and were dissolved in decane The interfacial viscoelasticity was investigated by applying the controlled stress model of oscillatory ring interfacial rheometer CIR 100 The effects of resin, asphaltene contents in decane, pH values, and demulsifiers in aqueous phase on interfacial viscoelasticity were studied It was shown the interfacial viscoelasticity of water/decane containing asphaltenes or resins is of the order of 4 higher than that of water/decane, and the interfacial viscoelasticity increased with increasing resin and asphaltene concentrations in decane When the pH value in aqueous phase was about 7,interfacial elasticity approached a maximum Demulsifers in aqueous phase could obviously reduce interfacial viscoelasticity and interfacial
Resin and asphaltene were separated from Daqing crude oil and were dissolved in decane The interfacial viscoelasticity was investigated by applying the controlled stress model of oscillatory ring interfacial rheometer CIR 100 The effects of resin, asphaltene contents in decane, pH values, and demulsifiers in aqueous phase on interfacial viscoelasticity were studied It was shown the interfacial viscoelasticity of water/decane containing asphaltenes or resins is of the order of 4 higher than that of water/decane, and the interfacial viscoelasticity increased with increasing resin and asphaltene concentrations in decane When the pH value in aqueous phase was about 7,interfacial elasticity approached a maximum Demulsifers in aqueous phase could obviously reduce interfacial viscoelasticity and interfacial tension
出处
《化工学报》
EI
CAS
CSCD
北大核心
2003年第8期1164-1168,共5页
CIESC Journal
基金
国家自然科学基金资助项目 (No 5 0 1740 11)
"九.五"国家重点攻关项目 (No 96-12 1-0 6-0 7)~~
关键词
界面黏弹性
沥青质
胶质
界面张力
interfacial viscoelasticity,resin,asphaltene,interfacial tension
