Pore-scale study of the effects of DTPA chelating agent flooding on oil recovery utilizing a clay-coated micromodel  

作　　者：Hojjat Mohammadzadeh Jamshid Moghadasi Khalil Shahbazi Shahin Kord 

机构地区：[1]Department of Petroleum Engineering,Ahwaz Faculty of Petroleum Engineering,Petroleum University of Technology,Ahwaz,Iran

出　　处：《Petroleum Research》2024年第2期228-237,共10页石油研究（英文）

摘　　要：The use of diethylenetriaminepentaacetic acid(DTPA)chelating agent has shown promising results for enhanced oil recovery(EOR)in prior research.Several mechanisms,mainly resulting from rock-fluid interaction,have been proposed for chelating agent flooding;however,little attention has been paid to fluid-fluid interaction thus far.The assessment of these mechanisms has primarily relied on macroscopic techniques such as core flooding.This paper aims to investigate the injection of DTPA brine and its dominant mechanisms at the pore scale using a clay-coated micromodel.The micromodel tests were performed under oil-wet and water-wet states.For a more precise examination of fluid/fluid interactions,the dynamic interfacial tension(IFT)and Zeta potential were measured.It was observed that the injection of DTPA brine in water-wet state changed the saturation distribution and increased oil recovery.Based on visual inspections,this change in saturation distribution could potentially be linked to the formation of micro-dispersions and viscoelastic interfacial phenomena.Micro-dispersions facilitate flow to unswept areas,and viscoelastic interface formation reshapes the interface between oil and brine,causing disconnected oil droplets to coalesce and thus increase recovery.Under the oil-wet state,the micro-dispersion formation and wettability alteration can be the dominant mechanisms,and the amount of recovered oil was higher than that observed in the water-wet state.Furthermore,Zeta potential measurements at the interface between brine and oil showed a more negative value for DTPA brine,which is effective in wettability alteration and micro-dispersions stability.The results indicate that IFT reduction was not significant enough to be considered the dominant mechanism,although it assists in DTPA brine penetration into the crude oil and subsequent micro-dispersion formation.

关 键 词：Enhanced oil recovery technique Chelating agent MICROMODEL Fluid/fluid interaction Micro-dispersions Viscoelastic interface 

分 类 号：TE357[石油与天然气工程—油气田开发工程]