克拉通内裂谷台地边缘丘滩杂岩优质储层发育主控因素及成因机制——以四川盆地德阳—安岳克拉通内裂谷东翼灯影组四段为例

Wei Yang , Guoqi Wei , Wuren Xie , Nan Su , Fuying Zen , Cuiguo Hao , Zhuangzhuang Bai , Rong Li , Xueqiong Wu , Yiqing Su
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引用次数: 0

摘要

四川盆地德安克拉通内裂谷边缘发育邓营组四段(邓四段)大型台缘丘滩杂岩储层,是安岳气田的主要产层。明确丘滩复合体的储层成因机制,是预测优质储层分布、指导勘探部署的关键。根据钻探、地震、露头和分析资料,分析了邓4段边缘丘滩杂岩的储层特征和成因机制,获得了三个新的认识:(1)四川盆地德阳-安岳克拉通内裂谷边缘发育有台缘丘滩储层。丘滩复合体主要由多个阶段的藻丘和生物碎屑浅滩组成。储层空间主要为溶蚀孔隙、溶洞和裂缝,总体上为低孔低渗。(2) 储层可分为裂缝-溶蚀孔隙型、溶蚀孔隙型和基质孔隙型三种类型,裂缝-溶蚀孔型储层为优质储层;储层的发育主要受台缘丘滩复合体、准同生期层间岩溶、两阶段风化壳岩溶作用和多阶段破坏作用的控制;同阶段储层上部较好,邓4段顶部储层较好。(3) 喜马拉雅运动前,两个台缘丘滩复合体的成藏环境相同,成藏特征相似。喜马拉雅运动导致了储层当前埋深的巨大差异,导致了大量裂缝,并保留了大量溶解孔隙和洞穴。全台缘丘滩杂岩储层规模较大,具有良好的勘探前景。研究结果丰富了古深部碳酸盐岩成藏理论及其成因机制,为勘探部署提供了地质依据。
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Main controlling factors and genetic mechanism for the development of high-quality reservoirs in the mound-shoal complexes on the platform margin of the intra-cratonic rift: A case study of the fourth member of the Dengying Formation in the eastern limb of Deyang-Anyue intra-cratonic rift, Sichuan Basin, China

Reservoirs of large platform margin mound-shoal complexes of the fourth member of Dengying Formation (Deng 4 Member) are developed in the margin of the Deyang-Anyue intra-cratonic rift in the Sichuan Basin and it is the main pay horizon of the Anyue gas field. A clear understanding of the reservoir genetic mechanism of the mound-shoal complexes is the key to predicting the distribution of high-quality reservoirs and guiding the deployment of exploration. Based on the data of drilling, seismic, outcrop, and analytical data, this paper analyzes the reservoir characteristics and genetic mechanism of the mound-shoal complexes at the margin of the Deng 4 Member and obtains three new understandings: (1) Platform margin mound-shoal reservoirs are developed on the margin of Deyang-Anyue intra-cratonic rift in Sichuan Basin. The mound-shoal complexes are mainly composed of algal mounds and bioclastic shoals in multiple stages. The reservoir space is mainly dissolution pores, caverns, and fractures, with low porosity and low permeability in general. (2) The reservoir can be divided into three types, i.e., the fracture-dissolution pore type, the dissolution pore type, and the matrix pore type, and the reservoirs of fracture-dissolution pore type are high-quality reservoirs; the development of reservoirs is mainly controlled by the platform margin mound-shoal complexes, the penecontemporaneous interstratal karst, and two-stage weathering crust karstification as well as multi-stage disruptive actions; the upper part of the reservoir in the same stage is good, and the reservoir at the top of Deng 4 Member is good. (3) Before the Himalayan movement, the reservoir forming and the environments of the two platform margin mound-shoal complexes were the same, and the characteristics of the formation of the reservoir were similar. The Himalayan movement led to a great difference in the current buried depth of the reservoir, resulting in a host of fractures and retaining a host of dissolution pores and caverns. The whole platform margin mound-shoal complexes have large-scale reservoirs developed and have a good exploration prospect. The results enrich the theory of ancient and deep carbonate reservoir forming and its genetic mechanism and provide the geological basis for the deployment of exploration.

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