通过X射线计算机断层扫描(CT)评估岩石类型的代表性基本体积——这是证明匈牙利博达粘土岩组非均质性的一种简单方法

IF 0.9 Q3 GEOLOGY
Geologos Pub Date : 2021-12-01 DOI:10.2478/logos-2021-0018
Saja Abutaha, J. Geiger, S. Gulyás, F. Fedor
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引用次数: 1

摘要

摘要X射线计算机断层扫描(CT)可以以非破坏性的方式揭示物体的内部三维细节,并以CT数字的形式提供高分辨率的定量数据。CT数对物质密度变化的敏感性意味着它可以用于识别沉积岩岩芯内的岩性变化。目前的试点研究证实了使用代表性基本体积(REV)来量化博达粘土岩组岩石成分CT密度的不均匀性。研究了该地层的32层,岩芯长度为2米。根据主要的岩石形成成分,可以定义两种岩石类型,即粘土质粉砂岩(20层)和细粉砂岩(12层)。其中11层(粘土质粉砂岩和细粉砂岩)显示出沉积特征,如回旋叠层、干燥裂缝、交叉叠层和裂缝。应用自回归综合移动平均数、统计过程控制(ARIMA SPC)方法来定义CT密度的代表性基本体积(REV)(Hounsfield单位值),确认了以下结果:i)最高的REV值对应于沉积结构的存在或粉砂岩成分的高比例(>60%)。ii)粘质粉砂岩的REV平均值为(5.86 cm3),细粉砂岩为(6.54 cm3)。iii)粘质粉砂岩和细粉砂岩的归一化REV百分比,在所研究的岩芯体积范围内分别为19.88%和22.84%;分别地iv)只要相应的层没有显示任何沉积结构,归一化的REV值就会低于10%。具有沉积特征的层中的内部空隙空间可能解释了显著的结构非均质性和REV值的升高。岩芯样品的干燥过程也可能通过粘土矿物的体积减少在增加错误的孔隙比例方面发挥了重要作用,特别是在沉积结构中,自生粘土和碳酸盐胶结物被认为是主要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing the representative elementary volume of rock types by X-ray computed tomography (CT) – a simple approach to demonstrate the heterogeneity of the Boda Claystone Formation in Hungary
Abstract X-ray computed tomography (CT) can reveal internal, three-dimensional details of objects in a non-destructive way and provide high-resolution, quantitative data in the form of CT numbers. The sensitivity of the CT number to changes in material density means that it may be used to identify lithology changes within cores of sedimentary rocks. The present pilot study confirms the use of Representative Elementary Volume (REV) to quantify inhomogeneity of CT densities of rock constituents of the Boda Claystone Formation. Thirty-two layers, 2 m core length, of this formation were studied. Based on the dominant rock-forming constituent, two rock types could be defined, i.e., clayey siltstone (20 layers) and fine siltstone (12 layers). Eleven of these layers (clayey siltstone and fine siltstone) showed sedimentary features such as, convolute laminations, desiccation cracks, cross-laminations and cracks. The application of the Autoregressive Integrated Moving Averages, Statistical Process Control (ARIMA SPC) method to define Representative Elementary Volume (REV) of CT densities (Hounsfield unit values) affirmed the following results: i) the highest REV values corresponded to the presence of sedimentary structures or high ratios of siltstone constituents (> 60%). ii) the REV average of the clayey siltstone was (5.86 cm3) and (6.54 cm3) of the fine siltstone. iii) normalised REV percentages of the clayey siltstone and fine siltstone, on the scale of the core volume studied were 19.88% and 22.84%; respectively. iv) whenever the corresponding layer did not reveal any sedimentary structure, the normalised REV values would be below 10%. The internal void space in layers with sedimentary features might explain the marked textural heterogeneity and elevated REV values. The drying process of the core sample might also have played a significant role in increasing erroneous pore proportions by volume reducation of clay minerals, particularly within sedimentary structures, where authigenic clay and carbonate cement were presumed to be dominant.
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Geologos
Geologos GEOLOGY-
CiteScore
1.70
自引率
0.00%
发文量
7
审稿时长
12 weeks
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