珠江口盆地白云凹陷古近系恩平组源—汇系统动态恢复OA
Dynamic reconstruction of the source-to-sink system of the Paleogene Enping Formation in the Baiyun Sag,Pearl River Mouth Basin,China:Insights from stratigraphic forward modeling
鉴于传统源—汇体系分析方法难以表征深时多物源沉积过程及不同物源贡献的时空演化,以珠江口盆地白云凹陷古近系恩平组为例,基于地层正演模拟,提出一种多物源的源—汇系统动态定量分析方法.该方法利用模型内置的"时空物源标签"功能,为各物源沉积物赋予时间-物源标记,使不同来源的沉积贡献在模拟地层中留下可识别的"标签",从而实现了各物源贡献的直接精准追踪与高时空分辨率定量分析.通过对珠江口盆地白云凹陷5 口覆盖近源至远源的虚拟井进行分析,模拟结果量化展示了各物源在不同位置和不同时期的沉积贡献比例变化,并检验了方法的可操作性和精度.模拟得到的三维沉积分布与实测地层数据高度吻合,验证了模型的可靠性.模拟结果显示,恩平组沉积体系经历了显著的时空转换:恩平组沉积晚期以凹陷北部远端供砂为主导,沉积中心向北部深水区迁移,同时形成了向凹陷内部大规模进积的三角洲砂体.模拟的三维沉积体分布表明,白云凹陷深水相区可能广泛存在大范围分布的优质储层砂体,可作为未来勘探的关键目标.与传统静态分析方法相比,基于地层正演模拟的动态恢复显著提高了源—汇分析的时空分辨率,并定量揭示了沉积体系对构造活动、基准面升降等外部驱动因素的响应特征.该方法为复杂深时多物源体系的研究提供了全新的定量分析框架,有望为深水少井区的储层预测与油气勘探部署提供有效的技术支持.
Traditional source-to-sink analyses cannot effectively characterize deep-time sedimentary processes involving multiple sediment sources and the spatiotemporal evolution of sediment contributions from different sources.In this study,a dynamic,quantitative source-to-sink analysis approach using stratigraphic forward modeling(SFM)is proposed,and it is applied to the Paleogene Enping Formation in the Baiyun Sag,Pearl River Mouth Basin.The built-in spatiotemporal provenance tagging of the model assigns a unique time-source label to sediments from each provenance,making each source's contribution identifiably"labeled"in the simulated formation,and thus enabling a direct precise tracking and high spatiotemporal resolution quantification of such contributions.Five pseudo-wells(from proximal to distal locations)in the Baiyun Sag were analyzed.The simulation results quantitatively represent the varied proportion of contribution of each source at different locations and in different periods and verify the proposed approach's operability and accuracy of the proposed approach.The simulated 3D deposit distribution shows a high agreement with the measured stratigraphic data,validating the model's reliability.Results reveal significant spatio-temporal changes in the Enping sedimentary system.In the late stage of Enping Formation deposition,a distal source supply from the northern part of the sag became dominant,the depocenter migrated northward to the deepwater area,and large-scale deltaic sand bodies extensively progradating into the sag were formed.The modeled 3D deposit distribution indicates that extensive high-quality reservoir sandstones are likely present across the deepwater area of the Baiyun Sag,which are identified as key exploration targets.Compared to traditional static approaches,the SFM-based dynamic simulation markedly enhances the spatiotemporal resolution of source-to-sink analysis and quantitatively captures the sedimentary system's responses to tectonic activity,base-level fluctuations and other external drivers.The proposed approach provides a novel quantitative framework for investigating complex,deep-time,multi-source systems,and offers an effective tool for reservoir prediction and hydrocarbon exploration planning in under-explored deepwater areas.
高建磊;刘可禹
中国石油大学(华东)深层油气全国重点实验室,山东青岛 266580||中国石油大学(华东)地球科学与技术学院,山东青岛 266580中国石油大学(华东)深层油气全国重点实验室,山东青岛 266580||中国石油大学(华东)地球科学与技术学院,山东青岛 266580||崂山实验室,山东青岛 266071
能源科技
源—汇系统地层正演模拟储层预测深水油气勘探白云凹陷珠江口盆地古近系恩平组
source-to-sink systemstratigraphic forward modelingreservoir predictiondeepwater hydrocarbon explorationBaiyun SagPearl River Mouth BasinPaleogene Enping Formation
《石油勘探与开发》 2026 (1)
130-142,13
国家自然科学基金"特提斯构造域中东部典型前陆盆地形成演化机制与油气富集效应"(92055204)中国科学院"智能导钻"A类先导项目(XDA14010401)中国海洋石油集团有限公司"白云凹陷古近系油气富集规律及有利区带优选研究"(CCL2021SKPS0118)
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