分支河流体系沉积特征与沉积模式-以川西北地区侏罗系沙溪庙组为例
- 收稿日期:
2024-10-25
- 网络出版日期:
2025-10-22
摘要: 【目的】为突破沉积体系准确预测难而形成的油气勘探成本高的瓶颈。【方法】研究以分支河流体系理论为依据,以四川盆地川西北地区侏罗系沙溪庙组为对象,综合野外露头、岩心以及测-录井等资料,运用地面和地下分析相结合、定量和定性分析相结合的的研究方法,实现对川西北地区沙溪庙组沉积体系展布的定量表征。【结果】研究表明:(1)川西北地区沙溪庙组发育有分支河流体系、三角洲体系和湖相体系三种沉积体系类型,分支河流体系主要包括3种亚相、6种微相类型,三角洲体系主要包括2种亚相、4种微相类型,湖相体系主要包括滨浅湖滩坝沉积;(2)分支河流体系近端亚相砂地比在50%-70%,砂体呈厚层相互叠置关系;中部亚相砂地比在30%-50%之间,砂体呈厚层连片展布;远端亚相砂地比在20%-30%,砂体呈孤立状;(3)研究区主要受河流作用的影响,沙一段表现为分支河流体系终止于范围较大的湖相沉积,沙二段表现为分支河流体系沉积终止于一些小的暂时性湖泊;(4)与现代沉积相类比,建立沉积体系定量预测模型,除在三角洲体系发育有大片优质储集层外,分支河流体系中部和远端相带同样可以形成连片的河道砂体储集层。【结论】研究的结果对于精细刻画不同微相砂体的发育规模、叠置样式具有重要指示意义,同时也为类似河流沉积背景下沉积体系展布的研究提供参考依据。
Sedimentary characteristics and quantification of a distributive fluvial system: A case study of the Jurassic Shaximiao Formation in the Northwest Sichuan Basin
- Received Date:
2024-10-25
- Available Online:
2025-10-22
Abstract: In order to break through the bottleneck of high cost of oil and gas exploration due to the difficulty of accurate prediction of sedimentary system, the study is based on the theory of distributive fluvial system, and takes the Jurassic Shaximiao Formation in Northwest Sichuan Basin as the sample, synthesizes the data of field outcrops, cores, and logging-recording wells, etc., and utilizes the research methods combining the analysis of the ground surface and the subsurface, and the analysis of the quantitative and qualitative analyses, so as to achieve the quantitative characterization of the sedimentary system of the Shaximiao Formation in the Northwest Sichuan Basin. The results of the study showed that: (1) The Shaximiao Formation in the central and northwest Sichuan basin has developed three types of sedimentary systems: distributive fluvial system, delta system, and lacustrine system. The distributive fluvial system of Shaximiao Formation in the study area can be divided into 3 subfacies and 6 microfacies types, the delta system can be divided into 2 subfacies and 4 microfacies types, and the lacustrine system can be further divided into shore-shallow lake beach-bar deposits. (2) The ratio of subfacies net-to-gross ratio is 50%-70% in the proximal, and the sand bodies are superimposed with thick layers. The medial subfacies net-to-gross ratio is between 30%-50%, and the sand body is distributed in thick layers. The distal subfacies net-to-gross ratio is 20%-30%, and the sand body is isolated. The delta and lacustrine facies systems are distributed in the middle Sichuan basin, and the net-to-gross ratio change is generally less than 15%. The sand bodies are also distributed in continuous sheets, but the maximum thickness of single sand bodies is thinner than that of the medial facies belt. (3) The Shaximiao Formation in the study area is mainly influenced by fluvial action, with the Sha 1 Member showing the distributive fluvial system terminating in a larger range of lacustrine deposits, and the Sha 2 Member showing the distributive fluvial system terminating in some small temporary lakes. (4) According to the modern sedimentary reference, in addition to the development of large high-quality reservoirs in the delta system, the medial and distal facies of the distributive fluvial system can also form continuous channel sand reservoirs. The results of the research are of great significance in characterizing the development scale and overlay style of different sand bodies, and also provide a reference basis for the study of the distribution of sedimentary systems in the context of similar fluvial deposits.