中里海油气盆地三叠系油气系统

D. Sokolov, M. Delengov, Regina Sabirianova, K. Musikhin, Oleg Bogdanov
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摘要

本文的目的是评价中里海油气盆地三叠系烃源岩的生烃潜力。构造上,研究区属于上旋-斯基泰-图拉尼亚板块,主要包括卡尔平斯克-曼吉什拉克海脊和普里库姆-中里海海槽隆升体系。利用三维盆地建模技术,通过地震资料解释、实验室地球化学分析和油气系统要素演化恢复等综合研究方法,识别三叠系油气系统的主要特征。地球化学研究包括三叠系烃源岩热解分析、镜质组反射率测定、分子结构色谱-质谱分析等。随后的盆地建模使得将广泛的地质和地球物理信息整合到单个复合体中成为可能。这些盆地模拟结果有助于更好地理解油气系统要素的演化恢复,并为预测油气聚集的定位提供了可能。这些综合研究有助于确定中里海盆地三叠系烃源岩的边界。它还可以详细描述其地球化学参数并评估其生成潜力的体积。三叠纪矿床是斯基泰台地造裂中间杂岩的一部分,主要位于地堑构造中。有机质含量的增加与奥列内克期下三叠统Neftekum组有关,该组由粘土灰岩和泥岩组成。东前高加索地区灰岩中总有机碳(TOC)含量平均为0.1%,部分地层中TOC含量高达2.05%。泥岩中TOC平均含量为0.43%。该参数在东曼尼奇低谷方向高达0.9%。三叠系沉积经5口井钻探,泥岩中有机碳平均含量为1.22%。样品显示沥青的迁移存在。根据三维盆地建模结果,除了研究区南部和东部侧翼外,其余大部分地区的Olenek HC烃源岩几乎已经耗尽了潜力。模型南部奥列内克期Neftekum HC烃源岩识别为MK1-3级裂裂作用,为主要生油带。研究区北部烃源岩层位较深。该区烃源岩已达到变质作用MK5-AK1级,为凝析气成藏带。研究结果使人们对中里海油气盆地三叠系油气系统的影响及其油气潜力前景有了新的认识。它还可以评估Olenek阶段Neftekum HC烃源岩在其面积和时间段内的生成参数变化。
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Triassic Hydrocarbon System of the Middle-Caspian Oil and Gas Basin
The objective of this paper is to assess the generation potential of the Triassic hydrocarbon (HC) source rocks for the petroleum potential of the Middle-Caspian Oil and Gas Basin. Tectonically the study area belongs to the Epigercine Scythian-Turanian plate, which includes the following major tectonic elements: the Karpinsk-Mangyshlak ridge and the Prikum-Central Caspian system of troughs and uplifts. Comprehensive research approach to identify the main features of the Triassic hydrocarbon system, such as the interpretation of seismic data, laboratory geochemical analysis and evolution restoration of the hydrocarbon systems elements by 3D basin modeling techniques. The geochemical research includes pyrolytic analysis of potential Triassic source rocks, determination of the vitrinite reflectance values, chromatography-Mass Spectrometry studies of molecular structure. The subsequent basin modeling made it possible to integrate a wide range of geological and geophysical information into a single complex. These basin modeling results provide a better understanding of evolution restoration of the hydrocarbon systems elements and make it possible to foresee hydrocarbon accumulation's localization. The combined set of research helped to identify the boundaries of the Triassic HC source rocks in the Middle-Caspian Basin. It also allowed characterizing in detail their geochemical parameters and evaluating the volume of its generation potential. Triassic deposits are part of the taphrogenic intermediate complex of the Scythian platform and mainly located in graben structures. The increased content of organic matter is associated with the Lower Triassic Neftekum Formation of the Olenek Stage, which is composed of clayey limestones and mudstones. The content of total organic carbon (TOC) in limestones in the Eastern Fore-Caucasus area averages 0.1 % in some layers up to 2.05 %. The average TOC content in mudstones is 0.43 %. This parameter is up to 0.9 % in the direction of the East-Manych trough. Triassic deposits were penetrated by 5 wells, the average content of organic carbon was 1.22% in mudstones. The samples show a migrant presence of bitumen. According to 3D basin modeling results, the Olenek HC source rock has practically exhausted its potential in on most of the except the southern part of the study area, as well as the eastern flank. The Olenek stage's Neftekum HC source rock in the southern part of the model is identified with MK1-3 catagenesis gradations, this grade represents the main zone of oil generation. At the northern part of study area, those strata of source rock are positioned at a great depth. The hydrocarbon source rock in those areas have reached the grades of catagenesis MK5-AK1, which represents the zones of condensate and gas formation. The research results allow to take a new look at the influence of the Triassic hydrocarbon system and its prospects of petroleum potential of the Middle-Caspian Oil and Gas Basin. It also allows evaluating the generation parameters variance of the Olenek stage's Neftekum HC source rock regarding its area and time period.
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