A novel numerical simulation of CO_(2) immiscible flooding coupled with viscosity and starting pressure gradient modeling in ultra-low permeability reservoir

作     者：Jie CHI Binshan JU Jiabei WANG Xing ZHANG Wenbin CHEN Mengfei ZHANG Jie CHI;Binshan JU;Jiabei WANG;Xing ZHANG;Wenbin CHEN;Mengfei ZHANG

作者机构：School of Big Data and Fundamental SciencesShandong Institute of Petroleum and Chemical TechnologyDongying 257061China School of Energy ResourcesChina University of Geosciences(Beijing)Beijing 100083China Key Laboratory of Geological Evaluation and Development Engineering of Unconventional Natural Gas EnergyBeijing 100083China School of Petroleum EngineeringChongqing University of Science&TechnologyChongqing 401331China Research Institute of Petroleum Engineering TechnologyShengli Oilfield CompanySINOPECDongying 257000China 

出 版 物：《Frontiers of Earth Science》 (地球科学前沿（英文版）)

年 卷 期：2023年第17卷第3期

页      面：884-898页

核心收录：

学科分类：0820[工学-石油与天然气工程] 08[工学] 082002[工学-油气田开发工程] 

基　　金：the Dongying Science Development Fund Project(Nos.DJ2022009 and DJ2020003) the Shandong Provincial Higher Education Research and Development Program(Science and Technology A Class)(No.J18KA201) the High-level Talent Research Start-up Fund of Shengli College of China University of Petroleum(No.KQ2019-008) the Chunhui Project of Shengli College of China University of Petroleum(No.KY2017004) the Research Cultivation Project of College of Big Data and Basic Science of Shandong Institute of Petroleum and Chemical Technology(No.XYPY2201)which supports are appreciated 

主　　题：viscosity starting pressure gradient flow simulation CO_(2)immiscible flooding ultra-low permeability reservoir 

摘      要：CO_(2) immiscible flooding is an environmentally-friendly and effective method to enhance oil recovery in ultra-low permeability reservoirs.A mathematical model of CO_(2) immiscible flooding was developed,considering the variation in crude oil viscosity and starting pressure gradient in ultra-low permeability reservoirs based on the non-Darcy percolation *** mathematical model and numerical simulator were developed in the C++language to simulate the effects of fluid viscosity,starting pressure gradient,and other physical parameters on the distribution of the oil pressure field,oil saturation field,gas saturation field,oil viscosity field,and oil *** results showed that the formation pressure and pressure propagation velocity in CO_(2) immiscible flooding were lower than the findings without considering the starting pressure *** formation oil content saturation and the crude oil formation viscosity were higher after the consideration of the starting pressure *** viscosity of crude oil considering the initiation pressure gradient during the formation was higher than that without this gradient,but the yield was lower than that *** novel mathematical models helped the characterization of seepage resistance,revealed the influence of fluid property changes on seepage,improved the mathematical model of oil seepage in immiscible flooding processes,and guided the improvement of crude oil recovery in immiscible flooding processes.