Geochemistry and Paleoredox Conditions of the Carbonate Reservoir Khasib Formation in East Baghdad Oilfield-Central Iraq

Journal of Petroleum Research and Studies Pub Date : 2023-12-12 DOI:10.52716/jprs.v13i4.757

Rana Abbas Ali

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Abstract

The carbonate of Khasib Formation in East Baghdad Oilfield, Central Iraq was geochemically investigated to interpret paleoredox conditions and source of rare earth elements (REEs) based on major, trace, and REEs geochemistry. SiO2 and Al2O3 concentrations are nearly the same in both wells, while CaO content just hardly differs between the EB10 and EB81 cores. The EB10 Well has higher concentrations of Th, Y, and Zr than the EB81 Well. However, both the ∑REE of EB10 (1.969-35.35, n=23) and EB81 (9.59-24.88, n=20) wells have low total REE content. These results show that the Khasib Formation's carbonate sedimentation contains seawater-like marine carbonate and PAAS-normalized REE + Y patterns accompanied by 1- light REE depletion (NdN/YbN= 0.40–0.95, n=23, and 0.54–0.90, n=20, respectively), 2- both positive to negative Ce anomalies (Ce/Ce*= 0.28-1.07, n=23; 0.39-1.76, n=20, respectively), as well as the 3-superchondritic Y/Ho ratio (23.25-57.5, n=23; 18.0-53.0, n=20, respectively). The terrigenous contribution, paleoredox conditions, and scavenging mechanisms were responsible for the observed variations in Ce components and Ce anomalies in the investigated cores. The rising U contents in the limestones (1.62-4.72 ppm) and authigenic U (0.66-4.44 ppm) indicate that dysoxic conditions were present when they were deposited. Further evidence from geochemical data suggests that diagenetic processes may be responsible for the positive Eu anomalies found in limestones. This implies that the Khasib Formation limestones may have kept their original seawater-like REE patterns. Due to trace amounts of detrital materials in certain specimens, there is identified variability in the REE + Y pattern and REE content. The current study shows that the limestones still display their original seawater-like patterns as long as shale contamination was minimal, and they act as a proxy for seawater.

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伊拉克中部巴格达东部油田碳酸盐岩储层 Khasib 地层的地球化学和古氧化还原条件

对伊拉克中部东巴格达油田 Khasib 地层的碳酸盐进行了地球化学研究，以便根据主要、痕量和稀土元素地球化学解释古氧化还原条件和稀土元素（REEs）来源。两口井的 SiO2 和 Al2O3 含量几乎相同，而 EB10 和 EB81 岩心的 CaO 含量几乎没有差别。EB10 井的 Th、Y 和 Zr 含量高于 EB81 井，但 EB10 井（1.969-35.35，n=23）和 EB81 井（9.59-24.88，n=20）的∑REE 总含量较低。这些结果表明，哈西卜地层的碳酸盐沉积含有类似海水的海相碳酸盐，PAAS归一化的 REE + Y 模式伴有 1- 轻 REE 贫化（NdN/YbN= 0.40-0.95, n=23, and 0.54-0.90, n=20, respectively)，2-从正到负的Ce异常（Ce/Ce*= 0.28-1.07, n=23; 0.39-1.76, n=20, respectively)，以及3-超软玉Y/Ho比率（23.25-57.5, n=23; 18.0-53.0, n=20, respectively)。在所调查的岩心中，Ce成分和Ce异常的变化是由土著贡献、古氧化还原条件和清除机制造成的。灰岩中不断上升的铀含量（1.62-4.72 ppm）和自生铀含量（0.66-4.44 ppm）表明，灰岩沉积时存在缺氧条件。地球化学数据提供的进一步证据表明，成岩过程可能是造成在灰岩中发现正 Eu 异常的原因。这意味着 Khasib Formation 灰岩可能保持了其原有的类似海水的 REE 模式。由于某些标本中含有微量的碎屑物质，因此在 REE + Y 模式和 REE 含量方面存在已查明的差异。目前的研究表明，只要页岩污染极少，灰岩仍可显示其原始的海水样形态，并可作为海水的代表。

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Journal of Petroleum Research and Studies

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