Reactive transport modeling constraints on the complex genesis of a lacustrine dolomite reservoir: A case from the Eocene Qaidam Basin, China

IF 6 1区 工程技术 Q2 ENERGY & FUELS
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Abstract

Reactive transport modeling (RTM) is an emerging method used to address geological issues in diagenesis research. However, the extrapolation of RTM results to practical reservoir prediction is not sufficiently understood. This paper presents a case study of the Eocene Qaidam Basin that combines RTM results with petrological and mineralogical evidence. The results show that the Eocene Xiaganchaigou Formation is characterized by mixed siliciclastic-carbonate-evaporite sedimentation in a semiclosed saline lacustrine environment. Periodic evaporation and salinization processes during the syngenetic-penecontemporaneous stage gave rise to the replacive genesis of dolomites and the cyclic enrichment of dolomite in the middle-upper parts of the meter-scale depositional sequences. The successive change in mineral paragenesis from terrigenous clastics to carbonates to evaporites was reconstructed using RTM simulations. Parametric uncertainty analyses further suggest that the evaporation intensity (brine salinity) and particle size of sediments (reactive surface area) were important rate-determining factors in the dolomitization, as shown by the relatively higher reaction rates under conditions of higher brine salinity and fine-grained sediments. Combining the simulation results with measured mineralogical and reservoir physical property data indicates that the preservation of original intergranular pores and the generation of porosity via replacive dolomitization were the major formation mechanisms of the distinctive lacustrine dolomite reservoirs (widespread submicron intercrystalline micropores) in the Eocene Qaidam Basin. The results confirm that RTM can be effectively used in geological studies, can provide a better general understanding of the dolomitizing fluid-rock interactions, and can shed light on the spatiotemporal evolution of mineralogy and porosity during dolomitization and the formation of lacustrine dolomite reservoirs.

反应迁移模型对湖相白云岩储层复杂成因的制约:始新世柴达木盆地的一个案例
反应迁移模型(RTM)是一种新兴的方法,用于解决成岩研究中的地质问题。然而,人们对将 RTM 结果外推至实际储层预测的理解还不够充分。本文结合 RTM 结果与岩石学和矿物学证据,对始新世盖达姆盆地进行了案例研究。研究结果表明,始新世小干柴沟地层的特征是在半封闭盐湖湖相环境中的硅质-碳酸盐-蒸发岩混合沉积。在新生代-新生代同期阶段,周期性的蒸发和盐渍化过程导致了白云岩的置换成因和米级沉积序列中上部白云岩的循环富集。利用 RTM 模拟重建了从陆相碎屑岩到碳酸盐岩再到蒸发岩的矿物成因的连续变化。参数不确定性分析进一步表明,蒸发强度(盐水盐度)和沉积物颗粒大小(反应表面积)是白云石化过程中重要的速率决定因素,这表现在盐水盐度较高和沉积物颗粒较细的条件下反应速率相对较高。将模拟结果与实测的矿物学和储层物理性质数据相结合表明,保留原始晶间孔隙和通过置换白云岩化产生孔隙度是始新世柴达木盆地独特的湖相白云岩储层(广泛存在亚微米晶间微孔)的主要形成机制。研究结果证实了 RTM 可以有效地应用于地质研究,可以更好地理解白云岩化流体与岩石之间的相互作用,并揭示白云岩化过程中矿物学和孔隙度的时空演变以及湖相白云岩储层的形成过程。
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来源期刊
Petroleum Science
Petroleum Science 地学-地球化学与地球物理
CiteScore
7.70
自引率
16.10%
发文量
311
审稿时长
63 days
期刊介绍: Petroleum Science is the only English journal in China on petroleum science and technology that is intended for professionals engaged in petroleum science research and technical applications all over the world, as well as the managerial personnel of oil companies. It covers petroleum geology, petroleum geophysics, petroleum engineering, petrochemistry & chemical engineering, petroleum mechanics, and economic management. It aims to introduce the latest results in oil industry research in China, promote cooperation in petroleum science research between China and the rest of the world, and build a bridge for scientific communication between China and the world.
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