Geological characterization of the Patterson CO2 storage site from 3-D seismic data

Jenny Meng, E. Holubnyak, Franek J. Hasiuk, J. Hollenbach, D. Wreath
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引用次数: 2

Abstract

Approximately 26 square miles of new 3-D seismic data were acquired in July 2019 over the Patterson Site (Kearny County, Kansas) to assess its potential for carbon dioxide (CO2) storage. Seismic interpretation revealed that the Patterson Site contains multiple structural closures that lie on uplifted fault blocks, bounded by two reverse faults that strike nearly perpendicular to each other. These faults offset Precambrian through Pennsylvanian sections, including several primary reservoir and seal intervals. Fault displacements are maximum at the Precambrian basement and decrease upward. Data indicated a range of structural and combination traps exists at the Patterson Site in the Cambrian-Ordovician Arbuckle through Mississippian Osagian reservoirs. The three-way closures along the NW–SE fault have structural relief of ~130 ft (40 m), and the four-way closures contain relief of ~60 ft (18 m). Erosional surfaces and multiple basement fractures also are observed on the top of the Precambrian. A Mississippian-aged incised valley system also was observed at the Patterson Site. The incised valleys formed during the Meramecian-Chesteran Stages with an incised depth up to 250 ft (76 m). The motion of the reverse faults likely captured existing meandering and linear channels, causing the current deeply incised morphology. The incised valleys observed at Patterson are similar in age, structural style, shape, incision depth, and seismic attribute properties to incised valleys observed by other workers at Pleasant Prairie South, Eubank, and Shuck oil fields (southwest Kansas). Further research should focus on estimating reactivation tendency and sealing characteristics of the reverse faults to evaluate the seal integrity of the saline reservoirs. This will reduce uncertainty concerning the risk of CO2 migration during injection and storage. Further reservoir description, modeling, and simulation are also underway to characterize the storage potential at the Patterson Site.
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基于三维地震数据的Patterson CO2储存地点的地质特征
2019年7月,在Patterson站点(堪萨斯州Kearny县)获得了大约26平方英里的新3d地震数据,以评估其二氧化碳(CO2)储存的潜力。地震解释显示,Patterson地块包含多个构造闭包,这些闭包位于凸起的断块上,由两条几乎相互垂直的反向断层所包围。这些断裂通过宾夕法尼亚剖面与前寒武纪相偏移,包括几个原生储层和封闭层。断层位移在前寒武纪基底处最大,向上减小。数据表明,在寒武纪-奥陶系至奥萨吉系储层的帕特森遗址存在一系列构造和组合圈闭。NW-SE断裂三向闭包的构造起伏度约为130 ft (40 m),四向闭包的构造起伏度约为60 ft (18 m)。前寒武纪顶部还观察到侵蚀面和多处基底断裂。在帕特森遗址还观察到一个密西西比时代的切割山谷系统。切陷谷形成于墨拉纪-切斯特期,切陷深度可达250英尺(76米)。逆断层的运动可能捕获了现有的蜿蜒和线性河道,形成了目前的深切形态。在Patterson观测到的切口山谷在年龄、构造样式、形状、切口深度和地震属性属性上与其他工作人员在Pleasant Prairie South、Eubank和Shuck油田(堪萨斯州西南部)观测到的切口山谷相似。进一步的研究应侧重于估计逆断层的再活化倾向和封闭特征,以评价含盐储层的封闭完整性。这将减少注入和储存过程中二氧化碳迁移风险的不确定性。进一步的油藏描述、建模和模拟也在进行中,以表征Patterson站点的存储潜力。
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