Determination of total organic carbon content using Passey's method in coals of the central Kalahari Karoo Basin, Botswana

Q1 Earth and Planetary Sciences Petroleum Research Pub Date : 2023-06-01 DOI:10.1016/j.ptlrs.2022.06.002
Mamphedi Sylvia Mabitje, Mimonitu Opuwari
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引用次数: 5

Abstract

This paper focuses on determining total organic carbon (TOC) from boreholes in the Kalahari Basin, Botswana, using Passey's method. The Kalahari Karoo basin is one of several basins in southern Africa filled with Late Carboniferous to Jurassic sedimentary strata that host Permian age coal seams. Nine exploration boreholes (wells) drilled in the central Kalahari Karoo basin are used to determine the Total Organic Carbon potential. Vitrinite reflectance (Ro), proximate and ultimate analyses were conducted on cored coal intervals. Passey's ΔLogR method applied in this study employs resistivity and porosity logs to identify and quantify potential source rocks. Results of Passey's method compared with laboratory-measured carbon showed that Passey's method effectively identifies coal intervals. In terms of TOC calculations, the method works poorly in coal metamorphosed by dolerite intrusions. The heat affected coal samples had Ro from 0.77% to 5.53% and increased in maturity from primarily maceral controlled to high volatile bituminous and anthracite coal. Results from proximate analysis showed compositional changes in the coal were controlled by proximity to sill intrusion, with a decrease in Fixed Carbon and an increase in ash yield in the contact metamorphism zone (2–12 m from sill). For the unaltered coal that has undergone burial maturation displaying Ro of 0.44%–0.65%, the method works well. In unintruded boreholes, correlations between Carbon and calculated TOC indicate strong relationships. Passey's ΔLogR method proved to be a suitable method of estimating TOC on coal that has undergone burial maturation. This study has demonstrated that TOC calculated from the sonic log is more reliable in coal not affected by contact metamorphism than TOC calculated from the density log.

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用Passey法测定博茨瓦纳喀拉哈里中部卡鲁盆地煤中的总有机碳含量
本文采用Passey方法对博茨瓦纳卡拉哈里盆地钻孔中的总有机碳(TOC)进行了测定。卡拉哈里-卡鲁盆地是非洲南部的几个盆地之一,该盆地充满了晚石炭世至侏罗纪的沉积地层,其中含有二叠纪煤层。在卡拉哈里-卡鲁盆地中部钻探的九个勘探钻孔(井)用于确定总有机碳潜力。对取芯煤段进行了镜质岩反射率(Ro)、近似分析和极限分析。本研究中应用的PasseyΔLogR方法采用电阻率和孔隙度测井来识别和量化潜在的烃源岩。Passey方法与实验室测碳结果的比较表明,Passey方法能有效地识别煤层层段。就TOC计算而言,该方法在由粗玄岩侵入体变质的煤中效果不佳。热影响煤样品的Ro从0.77%增加到5.53%,成熟度从主要的显微组分控制增加到高挥发性的烟煤和无烟煤。接近分析的结果表明,煤的成分变化受接近岩床侵入的控制,在接触变质带(距离岩床2-12m),固定碳减少,灰分增加。对于经过埋藏成熟的未变质煤,Ro为0.44%–0.65%,该方法效果良好。在未经预测的钻孔中,碳和计算出的TOC之间的相关性表明存在很强的关系。Passey的ΔLogR方法被证明是估算埋藏成熟煤TOC的合适方法。本研究表明,在不受接触变质作用影响的煤中,由声波测井计算的TOC比由密度测井计算的更可靠。
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来源期刊
Petroleum Research
Petroleum Research Earth and Planetary Sciences-Geology
CiteScore
7.10
自引率
0.00%
发文量
90
审稿时长
35 weeks
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