| 曲流河道沉积演化过程与历史重建--以吉林油田扶余采油厂杨大城子油层为例 |
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| 引用本文: | 单敬福,赵忠军,李浮萍,孙立勋,汤乃千,王博,高怀玺.曲流河道沉积演化过程与历史重建--以吉林油田扶余采油厂杨大城子油层为例[J].沉积学报,2015,33(3):448-458. |
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| 作者姓名: | 单敬福 赵忠军 李浮萍 孙立勋 汤乃千 王博 高怀玺 |
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| 作者单位: | 1.长江大学油气资源与勘探技术教育部重点实验室 武汉 430100; |
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| 基金项目: | 国家自然科学基金,湖北省教育厅基金,中国地质大学(武汉)重点实验室开放基金 |
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| 摘 要: | 高弯曲流单期河道内点坝内部侧积泥岩夹层所形成的天然渗流屏障是影响剩余油赋存的主控因素, 其单砂体内部薄夹层空间分布规模小、井间不易追踪对比、研究难度和所需资料要求程度较高等诸多不利因素, 制约着点坝砂体内部建筑结构的精细解剖。因此, 本文试图充分利用岩芯、测井、密井网等资料, 在废弃河道和点坝砂体的识别、恢复、河工参数的拟合和估算等基础上, 结合前人研究成果, 判别点坝侧积体的规模、倾向和倾角, 并以此为基础, 结合点坝地质概念模型, 从单一期河道内多个点坝中, 将属于同期的侧积体识别出来, 然后进行编号组合, 按照河道蛇曲化的规律进行过程分析和再现其沉积演化过程。这种方法实现了从成因过程学角度来解释点坝内部建筑结构及其空间叠置规律问题, 使河流相储层建筑结构分析不仅仅停留在结果层面, 而是注重从成因、过程视角去恢复和重建曲流河道历史演化过程, 使曲流点坝内部砂体建筑结构解剖结果将更合理、更可信, 并有效指导了油田中后期剩余油的预测和挖潜。
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| 关 键 词: | 曲流河道 河道演化 侧积体 沉积过程 砂体建筑结构 |
| 收稿时间: | 2014-07-08 |
Evolution Process and Historical Reconstruction of Meandering River:An example from Fuyu oil reservoir of Yangdachengzi Oil Production Plant in Jilin Oilfield |
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| Institution: | 1.Key Laboratory of Exploration Technologies for Oil and Gas Resources, MOE, Yangtze University, Wuhan 430100;2.Research Center of Sulige Gas Field, Changqing Oilfield Company, PetroChina, Xi'an 710018;3.National Engineering Laboratory for Exploration and Development of Low-Permeability Oil & Gas Fields, Xi'an 710018;4.Geological Institute of Oil Production Plant in Liaohe Oilfield, Panjin, Liaoning 124010;;5.First Oil Production Plant in Xinjiang Oilfield, Karamay, Xinjiang 834000 |
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| Abstract: | Fluvial-delta reservoir architecture has been another geological hotspot over the past 20 years, and many scholars constructed geological models based on different perspectives and different research methods. However, the underground reservoirs are extremely complex which are composite sandbodies and reformed frequently, not single cause, such as there is erosion, cut and discarded phenomena etc. when channels swing and migrate, which make the sandbodies complicated in a certain extent. The wrong conclusions and understandings are drawn easily and make the complex reservoirs originally crude and simplistic if can not start from the causes of evolution, but describe results of the deposition directly. All of these will be not conducive to adjust for the late oilfield.The natural flow barrier from point-sandbar deposit of meandering river is a main controlling factors for residual oil, and its scale is small, difficult to identify, research difficulty and more need of information and other restrictions, which restricted the fine dissection of the point bar. Authors will rebuild the historical evolution of meandering rivers by reconstructing process of channels deposition process from semi-qualitative and semi-quantitative point of view in order to make the reconstruction and result more reasonable. The Yangdachengzi oil-bearing formation in Fuyu Oil Production Plant of Jilin Oilfield is main object of this study. Fuyu oilfield locates in No.3 Fuxin uplift structural belt in the eastern edge of the southern Songliao Basin, and the dome anticline is complicated by faults. The reservoir mainly is controlled by structure belonging to crack, low permeability lithologic reservoirs in which distribution are relatively stable, and the lithology are mainly siltstone and fine sandstone. The previous research results show that the meandering river deposition was most developmental facies type in Yangdachengzi oil-bearing formation in Fuyu field under fluvial-delta deposition background. The lateral accretion body size, orientation and inclination were identified by making full use of the core, logging, oil and other dense well net, point bar sand body identification, restoration, river fitting parameters and estimation methods based on previous sedimentary facies research, and then the course of sedimentary evolution was reconstructed according to the rule of meandering river development after the contemporaneous lateral accretion bodies were linked and built up from single stage fluvial sand bodies combined with geological conceptual model. This method could explain the problem of overlapping regular pattern and architectural structures of sandbodies from the angle of cause and process quite well, so, the explanation will be more reasonable and credible to predict the potential of residual oil based on architectural structures of sandbodies from the angle of deposition process and deposition result. By using the above methods, the reconstruction of meandering river sedimentary evolution history was completed in the thin layer small-scale. Practical results show that the evolution of the meandering point bar historical reconstruction provided the solid foundation for the fine anatomy of meandering channel sandbodies, and effectively guide the remaining oil forecast and tapping potential in advanced stage. |
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| Keywords: | meandering river riverway evolution lateral accretion bodies deposition process architectural structures of sandbodies |
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