Compositional controls on the Lower Cretaceous Rodby Shale pore structure and surface area: a planned CCS top seal caprock for the Acorn storage site

IF 4.6 3区 工程技术 Q2 ENERGY & FUELS International Journal of Greenhouse Gas Control Pub Date : 2024-09-01 DOI:10.1016/j.ijggc.2024.104219
N.A. AlNajdi, R.H. Worden, James E.P. Utley
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Abstract

Fine-grained lithologies above CCS reservoirs cannot automatically be assumed to be mineralogically stable, or high quality top-seals to highly pressured CO2 as saline aquifer have previously contained hydrostatically pressured water. We have investigated the mineralogy, pore systems and surface area characteristics of the Lower Cretaceous Rodby Shale, the caprock to the Captain Sandstone at the UK's planned Acorn/Goldeneye CCS site. Rodby Shale core was logged and analysed by XRD, light microscopy, and SEM. Grain size was measured using laser particle size analysis. Mercury intrusion porosimetry and nitrogen adsorption analysis were used to characterise the pore network. The Rodby is smectite-rich and contains abundant calcite as well as quartz silt with small quantities of chlorite and plagioclase. Calcite was sourced from benthic microfossils, locally recrystallised to create a pore-filling cement. The mean pore throat and pore body diameter are about 17 nm putting the Rodby in the mesopore range and suggesting a predominance of slit-like pores. There are three lithofacies in the Rodby Shale: (i) high surface area clay-rich shale, (ii) low surface area calcite-rich shale, (iii) intermediate surface area quartz-rich. if the second lithotype encountered CO2, then the resulting calcite dissolution would lead to increasing surface area of the remaining shale. The Rodby Shale has good potential to be an effective barrier for CO2 escape, based on assessments of diffusion rate and post-breakthrough advection rate as well as stability and sealing assessments.

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下白垩统罗德比页岩孔隙结构和表面积的成分控制:橡子储藏场计划采用的 CCS 顶封盖岩
CCS 储层上的细粒岩性不能自动被认为是矿物学上稳定的,也不能自动被认为是高压二氧化碳的优质顶封,因为含盐含水层以前曾含有静水压水。我们对下白垩统罗德比页岩的矿物学、孔隙系统和表面积特征进行了研究,罗德比页岩是英国计划中的橡果/金眼 CCS 现场船长砂岩的盖岩。对罗德比页岩岩芯进行了记录,并通过 XRD、光学显微镜和扫描电镜进行了分析。使用激光粒度分析仪测量了粒度。汞侵入孔隙测定法和氮吸附分析用于确定孔隙网络的特征。罗德比富含直闪石,含有丰富的方解石以及石英粉,还有少量绿泥石和斜长石。方解石来自海底微化石,局部重结晶后形成孔隙填充胶结物。孔喉和孔体的平均直径约为 17 nm,罗德贝属于中孔范围,表明主要是缝隙状孔隙。罗德比页岩有三种岩性:(i) 高表面积富含粘土的页岩,(ii) 低表面积富含方解石的页岩,(iii) 中等表面积富含石英的页岩。如果第二种岩性遇到二氧化碳,那么由此产生的方解石溶解将导致剩余页岩的表面积增大。根据对扩散率和突破后的吸附率以及稳定性和密封性的评估,罗德比页岩很有可能成为二氧化碳逃逸的有效屏障。
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来源期刊
CiteScore
9.20
自引率
10.30%
发文量
199
审稿时长
4.8 months
期刊介绍: The International Journal of Greenhouse Gas Control is a peer reviewed journal focusing on scientific and engineering developments in greenhouse gas control through capture and storage at large stationary emitters in the power sector and in other major resource, manufacturing and production industries. The Journal covers all greenhouse gas emissions within the power and industrial sectors, and comprises both technical and non-technical related literature in one volume. Original research, review and comments papers are included.
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