美国密西西比州克兰菲尔德二氧化碳注入区中部塔斯卡卢萨泥岩成岩作用及封闭性

Q2 Earth and Planetary Sciences
Jiemin Lu, K. Milliken, R. Reed, S. Hovorka
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引用次数: 56

摘要

在密西西比州克兰菲尔德油田,一个监测二氧化碳封存和提高采收率的项目为研究海相页岩作为二氧化碳限制带的密封特性提供了一个独特的机会。储层位于下部Tuscaloosa组的混合河流基砂岩中,深度超过3000米(9843英尺)。Tuscaloosa中部的海相泥岩形成了一个约75米(246英尺)的连续区域围封系统。在二氧化碳注入区上方约70米(230英尺)处,从Tuscaloosa中部海相泥岩中取出了一个6米(20英尺)长的岩心。我们对岩心进行了一系列特征分析,使我们能够高可信度地评估地质时期的密封性能。岩心在厘米到分米尺度上表现出相当大的非均质性,岩性从含粉质富粘土泥岩到粉砂岩和细粒砂岩不等。岩心中共识别出9个微相。岩石学、矿物学和化学分析(扫描电子显微镜、x射线衍射和x射线荧光)表明,方解石胶结物优先形成于粗粒地层,孔隙度和渗透率大大降低,使粉质和砂质地层的渗透性低于泥岩。压汞毛细管压力测试表明,在100%含水饱和度下,所有样品都具有良好的密封能力,能够保持49至237米(161-778英尺)的CO2柱。各相渗透率小于0.0001 md,孔隙度小于4%。样品中的孔隙处于纳米尺度,模态孔喉尺寸小于20 nm。离子铣削表面的扫描电镜成像证实纳米孔是稀缺的,通常是孤立的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Diagenesis and sealing capacity of the middle Tuscaloosa mudstone at the Cranfield carbon dioxide injection site, Mississippi, U.S.A.
At Cranfield field, Mississippi, a monitored carbon dioxide (CO2) sequestration and enhanced oil recovery project provides a unique opportunity to study sealing properties of a marine shale as a CO2-confining zone. The reservoir is in the amalgamated fluvial basal sandstone of the lower Tuscaloosa Formation at depths of more than 3000 m (9843 ft). The marine mudstone of the middle Tuscaloosa forms a continuous regional confining system of approximately 75 m (246 ft).A 6-m (20-ft) core was retrieved from the middle Tuscaloosa marine mudstone approximately 70 m (230 ft) above the CO2 injection zone. We conducted a series of characterizing analyses on the core that would enable us to assess with high confidence seal performance over geologic time. The core displays considerable heterogeneity at centimeter to decimeter scales, with lithology varying from silt-bearing clay-rich mudstone to siltstone and very fine grained sandstone. In total, nine microfacies are recognized in the core. Petrographic, mineralogical, and chemical analyses (scanning electron microscopy, x-ray diffraction, and x-ray fluorescence) show that calcite cements preferentially form in coarser grained beds and have greatly reduced porosity and permeability, making silty and sandy beds less permeable than mudstone. Mercury intrusion capillary pressure tests show desirable sealing capacity for all samples capable of retaining a CO2 column of 49 to 237 m (161–778 ft) at 100% water saturation. Permeability and porosity of all facies are less than 0.0001 md and 4%, respectively. Pores in the samples are at nanometer scales, with modal pore-throat sizes less than 20 nm. Scanning electron microscopic imaging on ion-milled surfaces confirms that nanopores are scarce and generally isolated.
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来源期刊
Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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