ORGANIC AND INORGANIC GEOCHEMICAL AND MINERALOGICAL ASSESSMENTS OF THE SILURIAN AKKAS FORMATION, WESTERN IRAQ

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
A. I. Al-Juboury, F. M. Qader, J. Howard, S. J. Vincent, A. Al-Hadidy, B. Thusu, M. N.D. Kaye, B. Vautravers
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引用次数: 1

Abstract

The Silurian Akkas Formation has been reported and described only in the subsurface of western Iraq. The formation is divided into the lower Hoseiba Member, which contains two high-TOC “hot” shale intervals that together are around 60 m thick, and the overlying Qaim Member that is composed of lower-TOC “cold” shales. This study investigates the source rock potential of Akkas Formation shales from the Akkas-1and Akkas-3 wells in western Iraq and assesses the relationship between their mineral and elemental contents and their redox depositional conditions and thermal maturity. Twenty-six shale samples from both members of the Akkas Formation from the Akkas-1and Akkas-3 wells were analysed. The results showed that the upper, ~20 m thick“hot” shale interval in the lower Hoseiba Member has good source rock characteristics with an average TOC content of 5.5 wt% and a mean Rock-Eval S2 of 10 kg/tonne. Taken together, the two “hot” shale intervals and the intervening “cold” shale of the Hoseiba Member are ~125-150 m thick and have an average TOC of 3.3 wt% and mean S2 of 6.2 kg/tonne. The samples from the Hoseiba Member contain mixed Type II / III or Type III kerogen with an HI of up to 296 mgS2/gTOC. Visual organic-matter analysis showed that the samples contain dark brown, opaque amorphous organic matter with minor amounts of vitrinite-like and algal (Tasmanites) material. Pyrolysis – gas chromatography undertaken on a single sample indicated a mature (or higher) algal-dominated Type II kerogen. High spore and acritarch colour index values and weak or absent fluorescence similarly suggest that the lower part of the Akkas Formation is late mature to early post-mature for oil generation. “Cold” shales from the Qaim Member in the Akkas-3 well may locally have good source rock potential, while samples from the upper part of the Qaim Member from the Akkas-1 well have little source rock potential. Varied results from this interval may reflect source rock heterogeneity and limited sample coverage.

Mineralogically, all the shale samples studied were dominated by clay minerals – illite and kaolinite with minor amounts of chlorite and illite mixed layers. Non-clay minerals included quartz, carbonates, feldspars and pyrite along with rare apatite and anatase. Palaeoredox proxies confirmed the general link between anoxia and “hot” shale deposition; however, there was no clear relationship between TOC and U suggesting that another carrier of U could be present. Rare Earth Element (REE) contents suggested a slight change in sediment provenance during the deposition of the Akkas Formation. The presence of common micropores and fractures identified under SEM indicates that these shales could become potential unconventional reservoirs following hydraulic fracturing. Evidence for the dissolution of carbonate minerals was present along fractures, suggesting the possible passage of diagenetic fluids.

Palynological analysis combined with existing graptolite studies support a Wenlock - Pridoli/Ludlow age for the Akkas “hot”shales. This is younger than many other regional “hot shale” age estimates and warrants further detailed investigation.

伊拉克西部志留系akkas组有机无机地球化学和矿物学评价
志留系Akkas组只在伊拉克西部的地下被报道和描述过。该组分为下细叶段,包含两个高toc“热”页岩层,厚度约为60 m,上盖的Qaim段由低toc“冷”页岩组成。研究了伊拉克西部Akkas-1和Akkas-3井Akkas组页岩烃源岩潜力,评价了其矿物元素含量与氧化还原沉积条件和热成熟度之间的关系。研究人员分析了Akkas-1和Akkas-3井的Akkas组两个成员的26个页岩样品。结果表明:下细叶段上~20 m厚的“热”页岩层段具有良好的烃源岩特征,平均TOC含量为5.5 wt%,平均rock - eval S2为10 kg/t。这两个“热”页岩层段和介于两者之间的“冷”页岩层厚约125-150 m,平均TOC为3.3 wt%,平均S2为6.2 kg/吨。来自细叶段的样品含有混合的II型/ III型或III型干酪根,HI高达296 mgS2/gTOC。目视有机物分析表明,样品含有深棕色、不透明的无定形有机物,并含有少量镜质体和藻类(塔斯马尼亚)物质。热解-气相色谱法对单个样品进行了分析,表明这是一种成熟的(或更高)藻类为主的II型干酪根。较高的孢子和顶柱颜色指数值和较弱或不存在的荧光同样表明,Akkas组下部为晚成熟至早后成熟的生油期。Akkas-3井Qaim段“冷”页岩在局部具有较好的烃源岩潜力,而Akkas-1井Qaim段上部样品的烃源岩潜力不大。该层段的不同结果可能反映了烃源岩的非均质性和有限的样品覆盖范围。在矿物学上,所有页岩样品均以粘土矿物伊利石和高岭石为主,并有少量绿泥石和伊利石混合层。非粘土矿物包括石英、碳酸盐、长石和黄铁矿以及稀有的磷灰石和锐钛矿。古还原代物证实了缺氧与“热”页岩沉积之间的普遍联系;然而,TOC与U之间没有明确的关系,这表明可能存在另一种U载体。稀土元素(REE)含量表明,在阿卡斯组沉积过程中,沉积物物源发生了轻微变化。扫描电镜下发现的常见微孔和裂缝的存在表明,这些页岩在水力压裂后可能成为潜在的非常规储层。碳酸盐岩矿物溶解的证据沿着裂缝出现,表明成岩流体可能通过。孢粉学分析结合现有笔石研究支持Akkas“热”页岩的Wenlock - Pridoli/Ludlow年龄。这比许多其他地区“热页岩”年龄估计要年轻,值得进一步详细调查。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Petroleum Geology
Journal of Petroleum Geology 地学-地球科学综合
CiteScore
3.40
自引率
11.10%
发文量
22
审稿时长
6 months
期刊介绍: Journal of Petroleum Geology is a quarterly journal devoted to the geology of oil and natural gas. Editorial preference is given to original papers on oilfield regions of the world outside North America and on topics of general application in petroleum exploration and development operations, including geochemical and geophysical studies, basin modelling and reservoir evaluation.
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