Adhesion of oil at rock surface plays an important role in the liberation of oil from micro-/nano-pores,especially for heavy oil that has extremely high viscosity.Although molecular dynamics simulation is widely used ...Adhesion of oil at rock surface plays an important role in the liberation of oil from micro-/nano-pores,especially for heavy oil that has extremely high viscosity.Although molecular dynamics simulation is widely used to study the interfacial interaction for some specific oil-water-rock systems,experimental measurements provide more realistic and reliable evidence.In this work,we propose a dynamic wettability characterization method to indirectly measure resistant forces at oil-surfactant-rock interfaces,including frictional force,wettability hysteresis force,and viscous force,which are parallel with the oil-solid interface.The adhesive force,which is normal to the oil-solid interface is calculated through measurement of work of adhesion.The results show that work of adhesion instead of contact angle can better describe the adhesion of oil at solid surface.The effect of surfactant concentration on work of adhesion is different for water-wet and oil-wet surfaces.Moreover,average viscous forces are calculated through force analysis on oil drops moving along solid surface in different surfactant environments.It is found that viscous force has a magnitude comparable to the frictional force during the movement,while the wettability hysteresis force is negligible.On the other hand,the adhesive force calculated from the work of adhesion is also comparable to the viscous force.Therefore,both the resistant forces parallel with and normal to the oil-solid interface should be minimized for the liberation of oil from rock surface.This work proposes a simple method to evaluate the wetting capability of different surfactants and measure the adhesive force between heavy oil and rock surfaces indirectly,which provides insight into the adhesion of heavy oil at rock surface and would be valuable for the development of surfactant-based oil recovery methods.展开更多
The wettability of reservoir rocks saturated with oil and water is one of the most important factors influencing petrophysics and oil recovery.Minerals with different wettability constitute the overall heterogeneous w...The wettability of reservoir rocks saturated with oil and water is one of the most important factors influencing petrophysics and oil recovery.Minerals with different wettability constitute the overall heterogeneous wettability in rocks.Variations in sample composi-tion can be detected by nuclear magnetic resonance(NMR)measurements.In this paper,the method of using the magnetic susceptibility contrast between rock skeleton and saturated fluid to estimate wettability is proposed.The theoretical feasibility was firstly analyzed,and then the internal gradients caused by magnetic susceptibility contrasts were employed to interpret wettability alteration before and after ageing process in rocks.It was discovered that water and oil in the same pores experienced different internal gradients after ageing,which were associated with the differences in magnetic susceptibility con-trasts.After that,the free induction decay measurement was performed to acquire mag-netic susceptibility contrasts of artificial sandstone samples with the intermediate-wet condition.A refined NMR wettability index was presented and correlated with the Amott wettability tests.The experimental results demonstrate that the new method for deter-mining wettability is feasible.展开更多
基金funded by the National Key R&D Program of China(No.2018YFA0702400).
文摘Adhesion of oil at rock surface plays an important role in the liberation of oil from micro-/nano-pores,especially for heavy oil that has extremely high viscosity.Although molecular dynamics simulation is widely used to study the interfacial interaction for some specific oil-water-rock systems,experimental measurements provide more realistic and reliable evidence.In this work,we propose a dynamic wettability characterization method to indirectly measure resistant forces at oil-surfactant-rock interfaces,including frictional force,wettability hysteresis force,and viscous force,which are parallel with the oil-solid interface.The adhesive force,which is normal to the oil-solid interface is calculated through measurement of work of adhesion.The results show that work of adhesion instead of contact angle can better describe the adhesion of oil at solid surface.The effect of surfactant concentration on work of adhesion is different for water-wet and oil-wet surfaces.Moreover,average viscous forces are calculated through force analysis on oil drops moving along solid surface in different surfactant environments.It is found that viscous force has a magnitude comparable to the frictional force during the movement,while the wettability hysteresis force is negligible.On the other hand,the adhesive force calculated from the work of adhesion is also comparable to the viscous force.Therefore,both the resistant forces parallel with and normal to the oil-solid interface should be minimized for the liberation of oil from rock surface.This work proposes a simple method to evaluate the wetting capability of different surfactants and measure the adhesive force between heavy oil and rock surfaces indirectly,which provides insight into the adhesion of heavy oil at rock surface and would be valuable for the development of surfactant-based oil recovery methods.
基金the National Natural Science Foundation of China(Grant No.42004105)Natural Science General Program of the Higher Education Institutions of Jiangsu Province(Grant No.20KJD430002)+1 种基金Foundation of Changzhou Institute of Technology(YN20025)College student innovation and entrepreneurship training program(202211055012Z and 202211055067X).
文摘The wettability of reservoir rocks saturated with oil and water is one of the most important factors influencing petrophysics and oil recovery.Minerals with different wettability constitute the overall heterogeneous wettability in rocks.Variations in sample composi-tion can be detected by nuclear magnetic resonance(NMR)measurements.In this paper,the method of using the magnetic susceptibility contrast between rock skeleton and saturated fluid to estimate wettability is proposed.The theoretical feasibility was firstly analyzed,and then the internal gradients caused by magnetic susceptibility contrasts were employed to interpret wettability alteration before and after ageing process in rocks.It was discovered that water and oil in the same pores experienced different internal gradients after ageing,which were associated with the differences in magnetic susceptibility con-trasts.After that,the free induction decay measurement was performed to acquire mag-netic susceptibility contrasts of artificial sandstone samples with the intermediate-wet condition.A refined NMR wettability index was presented and correlated with the Amott wettability tests.The experimental results demonstrate that the new method for deter-mining wettability is feasible.
