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Mass Transfer Analysis of CO 2 -Water-Rock Geochemical Reactions in Reservoirs

机译:储层中CO 2-水-岩地球化学反应的传质分析

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It is difficult to exploit low-permeability reservoirs, and CO2 flooding is an effective method to improve oil recovery from low permeability reservoirs. However, in the process of CO2 flooding, acidic fluids dissolved in formation water will react with rock to cause dissolution and precipitation, resulting in pores and precipitates, changing the evolution law of seepage channels, destroying formation integrity, and affecting the effect of CO2 oil displacement. The change in rock's physical properties and the mass transfer law between CO2-water-rock are unclear. This paper considers the coupling effects of seepage, mechanics, and chemistry when CO2 is injected into the formation. The mass transfer model of CO2-water-rock in the geochemical reaction process is established on this basis. The physical properties of the reservoir after CO2 injection are quantitatively studied based on the microscopic mechanism of chemical reaction, and the migration law of solute in the reservoir rock during CO2 flooding under the coupling effects of multiple fields is clarified. The experimental results show that with the increase in reaction time, the initial dissolution reaction of formation rocks will be transformed into a precipitation reaction of calcite, magnesite, and clay minerals. The porosity and permeability of the rocks near the well first increase and then decrease. The far well end is still dominated by dissolution reactions, and the average values of formation porosity and permeability show an upward trend. Although the dissolution reaction of CO2-water-rock can improve the physical properties of reservoir rocks to a certain extent, the mutual transformation of the dissolution reaction and precipitation reaction further exacerbates the heterogeneity of formation pore structure, leading to the instability of CO2 migration, uneven displacement, and destruction of formation stability. The research results of this paper solve the problem of quantitative calculation of physical parameters under the coupling effect of multiple fields after CO2 injection into reservoirs and can predict the changes in formation physical properties, which can provide a certain theoretical basis for evaluating formation integrity and adjusting CO2 injection under the condition of CO2 flooding.
机译:低渗透油藏难以开采,CO2驱油是提高低渗透油藏采收率的有效方法。然而,在CO2驱过程中,溶解在地层水中的酸性流体会与岩石发生反应,引起溶解和沉淀,产生孔隙和析出物,改变渗流通道的演化规律,破坏地层完整性,影响CO2油位移的效果。岩石物理性质的变化和CO2-水-岩石之间的传质规律尚不清楚。本文考虑了CO2注入地层时渗流、力学和化学的耦合效应。在此基础上建立了地球化学反应过程中CO2-水-岩石的传质模型。基于化学反应的微观机理,定量研究了CO2注入后储层的物理性质,阐明了CO2驱油在多场耦合作用下储层岩中溶质的迁移规律。实验结果表明,随着反应时间的增加,地层岩的初始溶解反应将转化为方解石、菱镁矿和粘土矿物的沉淀反应。井附近岩石的孔隙度和渗透率先增大后减小。远端仍以溶解反应为主,地层孔隙度和渗透率平均值呈上升趋势。CO2-水-岩的溶蚀反应虽然能在一定程度上改善储集岩的物理性质,但溶蚀反应和沉淀反应的相互转化进一步加剧了地层孔隙结构的异质性,导致CO2运移不稳定、位移不均匀、地层稳定性破坏。本文的研究成果解决了CO2注入储层后多场耦合效应下物理参数定量计算问题,能够预测地层物性的变化,可为CO2驱条件下地层完整性评价和CO2注入量调整提供一定的理论依据。

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