Numerical simulation of pore-scale flow in chemical flooding process 被引量：3

Numerical simulation of pore-scale flow in chemical flooding process

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摘要 Chemical flooding is one of the effective technologies to increase oil recovery of petroleum reservoirs after water flooding.Above the scale of representative elementary volume(REV), phenomenological modeling and numerical simulations of chemical flooding have been reported in literatures,but the studies alike are rarely conducted at the pore-scale,at which the effects of physicochemical hydrodynamics are hardly resolved either by experimental observations or by traditional continuum-based simulations.In this paper,dissipative particle dynamics(DPD),one of mesoscopic fluid particle methods,is introduced to simulate the pore-scale flow in chemical flooding processes.The theoretical background,mathematical formulation and numerical approach of DPD are presented.The plane Poiseuille flow is used to illustrate the accuracy of the DPD simulation,and then the processes of polymer flooding through an oil-wet throat and a water-wet throat are studies, respectively.The selected parameters of those simulations are given in details.These preliminary results show the potential of this novel method for modeling the physicochemical hydrodynamics at the pore scale in the area of chemical enhanced oil recovery. Chemical flooding is one of the effective technologies to increase oil recovery of petroleum reservoirs after water flooding.Above the scale of representative elementary volume(REV), phenomenological modeling and numerical simulations of chemical flooding have been reported in literatures,but the studies alike are rarely conducted at the pore-scale,at which the effects of physicochemical hydrodynamics are hardly resolved either by experimental observations or by traditional continuum-based simulations.In this paper,dissipative particle dynamics(DPD),one of mesoscopic fluid particle methods,is introduced to simulate the pore-scale flow in chemical flooding processes.The theoretical background,mathematical formulation and numerical approach of DPD are presented.The plane Poiseuille flow is used to illustrate the accuracy of the DPD simulation,and then the processes of polymer flooding through an oil-wet throat and a water-wet throat are studies, respectively.The selected parameters of those simulations are given in details.These preliminary results show the potential of this novel method for modeling the physicochemical hydrodynamics at the pore scale in the area of chemical enhanced oil recovery.

作者 Xiaobo Li,~(1,a) Shuhong Wu,~1 Jie Song,~1 Hua Li,~1 and Shuping Wang~2 1.Research Institute of Petroleum Exploration & Development of Petrochina,Beijing 100083,China 2)Petroleum Exploration & Production Research Institute of Sinopec,Beijing 100083,China

出处《Theoretical & Applied Mechanics Letters》 CAS 2011年第2期68-72,共5页 力学快报（英文版）

基金 supported by the National Basic Research Program of China(2005CB221307 & 2005CB221304) China Postdoctoral Science Foundation(20090460391 & 201003138) PetroChina RIPED Innovations Foundation.

关键词 chemical flooding pore-scale flow dissipative particle dynamics mesoscopic simulation enhanced oil recovery chemical flooding pore-scale flow dissipative particle dynamics mesoscopic simulation enhanced oil recovery

分类号 TE357.4 [石油与天然气工程—油气田开发工程]

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参考文献13

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