库车坳陷克拉苏构造带超高压大气田形成机制研究
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摘要
应用石油天然气地质学、油气地球化学等多种技术和方法,本文较系统地研究了塔里木盆地库车坳陷三叠-侏罗系煤系烃源岩有机质的组成、结构及热解生气特征,详细分析了克拉苏构造带超高压大气田天然气地球化学特征及成因、储层流体包裹体特征及成藏期次,探讨了储层流体超高压的成因及其对天然气成藏的影响;结合克拉2、大北1、克深2典型大气田的解剖,综合研究了克拉苏构造带超高压大气田天然气的成藏特征和成藏过程。库车坳陷三叠-侏罗系煤系烃源岩有机质以芳碳结构为主,含有一定量的短脂肪侧链,具有良好的生气性。克拉苏构造带超高压大气田天然气明显为千气,δ136C1值为-33.1‰-25.1‰,δ3C2值为-28.1‰--16.8‰,属于高-过成熟的煤成气,气源主要来自中下侏罗统和中上三叠统烃源岩。对流体包裹体均一温度及盐度、颗粒和萃取液荧光定量等的分析,认为克拉苏构造带超高压大气田天然气为晚期成藏,深部区带的天然气成藏晚于克拉苏背斜区带。最后,提出了该区超高压大气田的成藏模式和主控因素。
On the basis of a lot of techniques and methods of oil and gas geology, oil and gas geochemistry, the composition, structure of organic matter and the characteristics of pyrolytic gas of the Triassic-Jurassic coal measure source rocks in the Kuqa Depression of Tarim basin was systematically studied in this dissertation. The geochemical characteristics and origins of natural gas, features of fluid inclusions in the reservoir and accumulation periods of overpressured large gas fields were detailedly analyzed. The causes of the overpressure of the reservoir and their influences of natural gas accumulation were also discussed. Combined with the anatomy? of the Kela-2, Dabei-1and Keshen-2three typical large gas fields, the characteristics and process of natural gas accumulation in the overpressured large gas fields were also comprehensively studied. There are rich aromatic structures and have a certain quantity of short fat side chains in the Triassic-Jurassic coal measure source rocks in Kuqa Depression. The maceral compositions in these coal measure source rocks are predominated by vitrinites and have strong gas generation ability. The natural gases of Kelasu tectonic zone in kuqa Depression obviously belong to dry gases. Their δ13C1values were ranged from-33.1‰to-25.1‰, and theδ13C2values were from-28.1‰to-16.8‰. These gases belong to high-over mature coal-formed gases, mainly generated from the middle-lower Jurassic and upper-middle Triassic source rocks. Based on the analyses of the homogenization temperature and salinity of the fluid inclusions, Quantitative Grain Fluorescence (QGF) and Quantitative Grain Fluorescence Extract (QGF-E), it is concluded that the overpressured large gas fields of Kela-2, Dabei-1and Keshen-2, are late migrated and accumulated.Natural gas accumulation time of deep zones is later than that of kelasu anticline zones, and the late gas charging has a strong gas washing on the early oil filling. Finally, the main controlling factors and the accumulation model of the overpressured large gas fields in Kelasu tectonic zone were put forward.
On the basis of a lot of techniques and methods of oil and gas geology, oil and gas geochemistry, the composition, structure of organic matter and the characteristics of pyrolytic gas of the Triassic-Jurassic coal measure source rocks in the Kuqa Depression of Tarim basin was systematically studied in this dissertation. The geochemical characteristics and origins of natural gas, features of fluid inclusions in the reservoir and accumulation periods of overpressured large gas fields were detailedly analyzed. The causes of the overpressure of the reservoir and their influences of natural gas accumulation were also discussed. Combined with the anatomy? of the Kela-2, Dabei-1and Keshen-2three typical large gas fields, the characteristics and process of natural gas accumulation in the overpressured large gas fields were also comprehensively studied. There are rich aromatic structures and have a certain quantity of short fat side chains in the Triassic-Jurassic coal measure source rocks in Kuqa Depression. The maceral compositions in these coal measure source rocks are predominated by vitrinites and have strong gas generation ability. The natural gases of Kelasu tectonic zone in kuqa Depression obviously belong to dry gases. Their δ13C1values were ranged from-33.1‰to-25.1‰, and theδ13C2values were from-28.1‰to-16.8‰. These gases belong to high-over mature coal-formed gases, mainly generated from the middle-lower Jurassic and upper-middle Triassic source rocks. Based on the analyses of the homogenization temperature and salinity of the fluid inclusions, Quantitative Grain Fluorescence (QGF) and Quantitative Grain Fluorescence Extract (QGF-E), it is concluded that the overpressured large gas fields of Kela-2, Dabei-1and Keshen-2, are late migrated and accumulated.Natural gas accumulation time of deep zones is later than that of kelasu anticline zones, and the late gas charging has a strong gas washing on the early oil filling. Finally, the main controlling factors and the accumulation model of the overpressured large gas fields in Kelasu tectonic zone were put forward.
引文
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