准噶尔盆地沙湾凹陷及周缘深层超压成因及预测

Overpressure origin and prediction in deep strata of Shawan Sag and its surrounding areas in Junggar Basin

  • 摘要: 准噶尔盆地沙湾凹陷钻井显示,深层二叠系—三叠系普遍存在超压,但有关超压分布及其成因机制的研究较为薄弱。为明确该区超压成因、演化及分布特征,支撑油气成藏研究,以钻井、测井、实测地层压力和地震速度等资料为基础,结合超压响应特征和声波速度—密度交会图分析,探讨其超压成因机制。采用多种方法进行压力预测,刻画压力平面和纵向分布特征,并借助盆地数值模拟等方法恢复压力演化过程,进而明确沙湾凹陷及周缘深层二叠系—三叠系的超压成因机制、分布及演化特征,并建立研究区生烃增压模式。研究结果表明,沙湾凹陷最高压力系数可达2.04,二叠系和三叠系预测孔隙压力约在95~146 MPa之间,压力系数约在1.60~2.05之间。超压顶界面埋深为5~6 km,压力演化过程可分为三期增压和两期泄压阶段,并建立了以生烃增压为主的压力演化模式。研究结果表明:沙湾凹陷二叠系与三叠系地层普遍存在超压,超压顶界面位于侏罗系;该区深层二叠系与三叠系超压成因基本一致,主要源于生烃作用,而非压实不均衡;基于Eaton法和Fillippone公式,结合测井数据和三维地震速度谱,从多方面对地层压力进行了预测,所得结果与实测地层压力基本吻合。

     

    Abstract: Drilling results from the Shawan Sag in the Junggar Basin revealed widespread overpressure in the deep Permian-Triassic strata, yet research on its distribution and generating mechanism remains relatively insufficient. To clarify the origin, evolution, and distribution characteristics of overpressure in this area and to support hydrocarbon accumulation research, the study investigated the overpressure-generating mechanism using drilling data, well logs, measured formation pressures, and seismic velocities, combined with analyses of overpressure response characteristics and acoustic velocity-density crossplots. Multiple pressure-prediction methods were adopted to delineate the planar and vertical distribution characteristics of formation pressure. Basin numerical simulations were used to reconstruct the pressure evolution process. These analyses clarified the generating mechanism, distribution characteristics, and evolution features of overpressure in the deep Permian-Triassic strata of the Shawan Sag and its surrounding areas. A hydrocarbon generation pressurization model was established for the study area. The results showed that the maximum pressure coefficient in the Shawan Sag reached 2.04. The predicted pore pressures of the Permian and Triassic strata ranged from approximately 95 to 146 MPa, corresponding to pressure coefficients between 1.60 and 2.05. The top interface of the overpressure zone lay at a burial depth of 5 to 6 km. The pressure evolution process was divided into three pressurization stages and two pressure relief stages, and a pressure evolution model dominated by hydrocarbon generation pressurization was established. The study reached the following conclusions.Widespread overpressure existed in the Permian and Triassic strata of the Shawan Sag, with the top interface of the overpressure zone located in the Jurassic. The overpressure origins in the deep Permian and Triassic strata of this area were basically consistent, mainly from hydrocarbon generation rather than compaction disequilibrium. Formation pressures were predicted from multiple aspects using the Eaton method and the Fillippone equation, combined with logging data and 3D seismic velocity spectra. The obtained results were basically consistent with the measured formation pressures.

     

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