准噶尔盆地马湖地区深层致密砾岩储层发育特征及成因

Jing Sun, Xincai You, Quan Zhang, Jingjing Xue, Qiusheng Chang
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引用次数: 1

摘要

为了阐明准噶尔盆地马湖地区深层致密砾岩储层的发育规律和主要成因,系统地研究了深井的各种资料和数据,以确定储层的基本特征和有效成因。结果表明,该储层主要由细、中细砾岩组成,属于扇三角洲分流河道砾岩。此外,它是一个典型的深部致密砾岩储层,具有低至超低孔隙度和渗透率,砾石主要由凝灰岩和中酸性火山熔岩组成的火山岩组成。胶结物主要由laumontite和方解石组成,储层经历了压实、胶结和溶解三种类型的成岩作用。前两种类型具有破坏和建造的双重作用,而溶解的结果是广泛发育由沸石、碳酸盐胶结物和泥质基质溶解形成的粒间溶孔以及长石和深色矿物溶解形成的晶内溶孔组成的次生孔隙富集带。与中浅层不同,储层空间主要由次生孔隙和裂缝组成。有效储层主要由岩石成分、溶解、裂缝系统和异常高压引起。岩石成分提供了充分的物质基础,是内部原因,而溶解、断裂系统和异常高压是外部原因。溶解形成次生孔隙富集带,裂缝系统提高了储层的渗流能力,异常高压可以有效地维持和增加孔隙。四个因素控制着相对优质的深层致密砾岩储层的形成和分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development characteristics and genesis of deep tight conglomerate reservoirs of Mahu area in Junggar Basin, China

To clarify the development rules and main origins of deep tight conglomerate reservoirs in the Mahu area of Junggar Basin, various materials and data from deep wells were systematically researched to determine the reservoir's basic characteristics and effective origins. The results indicate that the reservoir mainly comprises a fine and medium-fine conglomerate, which belongs to the fan delta distributary channel conglomerate. Additionally, it is a typical deep tight conglomerate reservoir with low to ultra-low porosity and permeability, and the gravel primarily consists of volcanic rock composed of tuff and intermediate acid volcanic lava. The cement is mainly composed of laumontite and calcite, and the reservoir has undergone three types of diagenesis: compaction, cementation, and dissolution. The first two types have dual effects of destruction and construction, while the result of dissolution is the widespread development of secondary pore enrichment zones composed of intergranular solution pores formed by the dissolution of zeolite, carbonate cement, and argillaceous matrix, as well as intragranular solution pores formed by the dissolution of feldspar and dark minerals. Unlike the middle and shallow layers, the reservoir space mainly composed of secondary pores and fractures. The effective reservoir is mainly caused by rock composition, dissolution, fracture system, and abnormal high pressure. The rock composition provides a sufficient material basis and is the internal cause, while the dissolution, fracture system, and abnormal high pressure are the external causes. The dissolution forms a secondary pore enrichment zone, the fracture system improves the seepage capacity of the reservoir, and abnormal high pressure can effectively maintain and increase the pores. Four factors control the formation and distribution of relatively high-quality deep tight conglomerate reservoirs.

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