平台内浅滩薄层白云岩储层特征及主要控制因素:中国西南部四川盆地高石梯-磨溪地区中二叠统栖霞地层案例研究

IF 7 Q1 ENERGY & FUELS
Jiang HE , Zhihua LIAN , Wenjun LUO , Hui ZHOU , Huilin XU , Puwei HE , Yi Yang , Xuemei LAN
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引用次数: 0

摘要

在研究中国西南盆地高石梯-磨溪地区中二叠统栖霞组台内滩涂分布及白云岩储层特征的基础上,分析了储层发育的控制因素,建立了 "台内滩涂薄层白云岩储层 "的形成模式。栖霞地层自下而上呈递减循环,第一层(栖1层)发育低能开阔海微地层,第二层(栖2层)随海平面下降演化为台内滩涂和滩间海。平台内滩涂主要分布在齐二系两个次生浅化周期的顶部附近。栖霞地层最重要的储集岩为薄层断裂-凹凸白云岩,其次为凹凸白云岩。断裂-凹凸中常见半充填鞍状白云岩,晶间孔隙和残余溶蚀孔隙与断裂结合形成有效的孔隙-断裂网络。基于沉积特征和成岩特征的耦合分析,系统地建立了 "沉积前微古地貌控制滩涂、沉积滩涂控制白云岩、半同期白云岩有利于孔隙保存、后期热液作用有效改善储层质量 "的储层形成模型。栖霞地层沉积前的 "一阶高带 "微地貌控制了高石梯地区大面积平台内滩涂的发育,而滩涂是栖霞地层沉积过程中的基本地貌。滩涂面是早期白云岩化的基本条件,台内滩涂与白云岩储层的分布范围高度一致。滩涂面的粒状灰岩经过两个阶段的白云石化转变。半同期白云岩化有利于原生孔隙和次生溶蚀孔隙的保存。埋藏热液沿与峨眉山玄武岩事件相关的断裂进入早期白云岩体,使其重结晶为中粗晶白云岩。通过沿断裂热液溶解后的晶间孔隙和残留孔隙,形成了优质的台地内浅滩型薄层白云岩储层。该储层形成模型的建立可为四川盆地二叠系气藏的可持续开发提供重要的理论支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characteristics and main controlling factors of intra-platform shoal thin-layer dolomite reservoirs: A case study of Middle Permian Qixia Formation in Gaoshiti–Moxi area of Sichuan Basin, SW China

Based on the study of the distribution of intra-platform shoals and the characteristics of dolomite reservoirs in the Middle Permian Qixia Formation in the Gaoshiti–Moxi area of the Sichuan Basin, SW China, the controlling factors of reservoir development were analyzed, and the formation model of “intra-platform shoal thin-layer dolomite reservoir” was established. The Qixia Formation is a regressive cycle from bottom to top, in which the first member (Qi1 Member) develops low-energy open sea microfacies, and the second member (Qi2 Member) evolves into intra-platform shoal and inter-shoal sea with decreases in sea level. The intra-platform shoal is mainly distributed near the top of two secondary shallowing cycles of the Qi2 Member. The most important reservoir rock of the Qixia Formation is thin-layer fractured-vuggy dolomite, followed by vuggy dolomite. The semi-filled saddle dolomite is common in fracture-vug, and intercrystalline pores and residual dissolution pores combined with fractures to form the effective pore-fracture network. Based on the coupling analysis of sedimentary and diagenesis characteristics, the reservoir formation model of “pre-depositional micro-palaeogeomorphology controlling shoal, sedimentary shoal controlling dolomite, penecontemporaneous dolomite benefiting preservation of pores, and late hydrothermal action effectively improving reservoir quality” was systematically established. The “first-order high zone” micro-paleogeomorphology before the deposition of the Qixia Formation controlled the development of large area of intra-platform shoals in Gaoshiti area during the deposition of the Qi2 Member. Shoal facies is the basic condition of early dolomitization, and the distribution range of intra-platform shoal and dolomite reservoir is highly consistent. The grain limestone of shoal facies is transformed by two stages of dolomitization. The penecontemporaneous dolomitization is conducive to the preservation of primary pores and secondary dissolved pores. The burial hydrothermal fluid enters the early dolomite body along the fractures associated with the Emeishan basalt event, makes it recrystallized into medium–coarse crystal dolomite. With the intercrystalline pores and the residual vugs after the hydrothermal dissolution along the fractures, the high-quality intra-platform shoal-type thin-layer dolomite reservoirs are formed. The establishment of this reservoir formation model can provide important theoretical support for the sustainable development of Permian gas reservoirs in the Sichuan Basin.

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