加拿大西部沉积盆地白云石化泥盆纪地层的储层评价:对碳捕获、利用和储存的影响

IF 2 4区 地球科学 Q1 GEOLOGY
Jack Stacey, H. Corlett, Cathy Hollis, David Hills
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引用次数: 0

摘要

加拿大西部沉积盆地(Western Canada Sedimentary Basin,WCSB)的不同白云岩化碳酸盐地层越来越多地成为碳捕集、利用和封存(CCUS)的目标,但很少有研究为此评估这些常规碳氢化合物储层的岩石物理特征。针对这一问题,本研究利用钻芯分析(沉积学、成岩学、孔隙形态和分布)以及岩芯堵塞和生产数据,评估了中泥盆世至上泥盆世天鹅山地层、勒杜克地层和瓦巴蒙组中五个枯竭油气田的特性。天鹅山地层和勒杜克地层由礁石、浅滩和泻湖沉积组成,主要富含化石(如以叠层石为主的芦苇石和界石)。相比之下,瓦巴蒙组的碳酸盐斜坡沉积则化石贫乏,由不同程度的生物扰动碳酸盐泥岩、褶皱岩和包裹岩组成。每个地层单元中的白云岩化替代情况各不相同,但一般都发生在化石丰富和/或生物扰动严重的区间。石灰岩和白云岩的断裂密度大致相当。天鹅山地层和勒杜克地层的孔隙度主要为模状和凹凸状,出现在化石(如叠层石)部分或全部溶解的地方。瓦巴蒙组的孔隙空间主要局限于洞穴内的晶间孔隙。一般来说,埋藏的胶结物(如方解石和白云石)在体积上微不足道,只能部分填充孔隙。例外情况包括断层附近与断裂和角砾岩有关的排除孔隙度的胶结物。白云岩化和沉积相对孔隙的形态、分布和相互连接有很强的控制作用。孔隙度主要受骨架颗粒的相对丰度和洞穴的存在所控制。在埋藏成岩过程中,这些高孔隙度岩层充当了流体通道,导致其优先白云石化、原有孔隙的溶蚀增强以及与体积减少相关的孔隙度的形成。白云岩化的暗礁储层(如天鹅山地层和勒杜克地层)具有较高的二氧化碳封存能力和较低的计划外羽流迁移风险(由于沉积/同源挡板),因此与那些封存能力有限和/或具有潜在迁移途径的储层(如瓦巴蒙组中与断层相关的裂缝和角砾岩)相比,它们更有吸引力成为CCUS的目标。这些结果表明,钻探岩心分析与遗留数据相结合,可以为了解控制储层二氧化碳注入率、羽流迁移和封存能力的因素提供宝贵的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reservoir evaluation of dolomitized Devonian strata in the Western Canada Sedimentary Basin: Implications for carbon capture, utilization and storage
Differentially dolomitized carbonate strata in the Western Canada Sedimentary Basin (WCSB) are increasingly targeted for carbon capture, utilization and storage (CCUS), yet few studies have evaluated the petrophysical characteristics of these conventional hydrocarbon reservoirs for this purpose. To address this, this study uses drill core analysis (sedimentology, diagenesis, pore morphology and distribution), together with core plug and production data, to evaluate the properties of five depleted oil and gas fields in the Middle to Upper Devonian Swan Hills Formation, Leduc Formation and Wabamun Group. The Swan Hills and Leduc Formations are comprised of reef, shoal and lagoon deposits that are predominantly fossil-rich (e.g. stromatoporoid-dominated rudstones and boundstones). In contrast, the carbonate ramp deposits of the Wabamun Group are fossil-poor, consisting instead of variably bioturbated carbonate mudstones, wackestones and packstones. Replacement dolomitization is variable throughout each stratigraphic unit, but generally occurs within fossil-rich and/or heavily bioturbated intervals. Fracture densities are broadly comparable in limestone and dolostone. Porosity in the Swan Hills and Leduc Formations is predominantly moldic and vuggy, occurring where fossils (e.g. stromatoporoids) are partially or fully dissolved. Pore space in the Wabamun Group is mostly restricted to intercrystalline porosity within burrows. In general, burial cements (e.g. calcite and dolomite) are volumetrically insignificant and only partially fill pores. Exceptions to this include porosity-occluding cements associated w ith fractures and breccias in the vicinity of faults. Dolomitization and depositional facies are found to exert a strong control on pore morphology, distribution and interconnectivity. Porosity is primarily controlled by the relative abundance of skeletal grains and by the presence of burrows. These highly porous facies acted as fluid pathways during burial diagenesis, resulting in their preferential dolomitization, solution enhancement of pre-existing pores, and creation of volume reduction-related porosity. The high CO2 storage capacity and low unplanned plume migration risk (due to depositional/diagenetic baffles) of dolomitized reefal reservoirs (e.g. Swan Hills and Leduc Formations) make them more attractive targets for CCUS than those with limited capacity and/or potential migration pathways (e.g. fault-related fractures and breccias in the Wabamun Group). These results demonstrate that drill core analysis, in combination with legacy data, can provide valuable insights into the factors that control reservoir CO2 injectivity, plume migration and storage capacity.
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来源期刊
CiteScore
3.80
自引率
5.00%
发文量
50
审稿时长
3 months
期刊介绍: The journal is broad and international in scope and welcomes contributions that further the fundamental understanding of sedimentary processes, the origin of sedimentary deposits, the workings of sedimentary systems, and the records of earth history contained within sedimentary rocks.
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