深超深层优质碎屑岩储层成因机制及主要控制因素:中国西北部河套盆地临河凹陷渐新世临河地层案例研究

IF 7 Q1 ENERGY & FUELS
Yuanpeng SHI , Zhanguo LIU , Shaochun WANG , Jin WU , Xiheng LIU , Yanxu HU , Shuguang CHEN , Guangye FENG , Biao WANG , Haoyu WANG
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引用次数: 0

摘要

根据岩心、钻探和测井新资料,结合大量的岩石和矿物测试分析,对河套盆地渐新世临河地层深-超深异常高孔隙率碎屑岩储层的特征、成因类型、成因及控制因素进行了系统分析。临河地层深-超深碎屑岩储层空间以原生孔隙为主,抗压实性强的岩石结构、热压实性弱的成岩动力场、流体压实性弱-胶结性弱的成岩环境三大有利成岩要素的耦合有利于原生孔隙的保存。临河地层碎屑岩具有优越的前生物质组成,石英、长石、硬质岩碎屑的平均总含量达 90%,抗压实性强。临河凹陷的地热梯度在(2.0-2.6)℃/100 米范围内,地热梯度较低,加之长期浅埋和后期快速深埋的埋藏历史,形成了弱热压成岩动力场环境。盐湖盆地的成岩环境以弱流体压实为特征。同时,古盐度具有分区特征,低盐度地区的弱胶结有利于原生孔隙的保存。沉积的水动力条件、盐湖盆地古水的盐度分异和砂体厚度共同控制了临河地层优质储层的分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic mechanism and main controlling factors of high-quality clastic rock reservoirs in deep and ultradeep layers: A case study of Oligocene Linhe Formation in Linhe Depression, Hetao Basin, NW China

Based on new data from cores, drilling and logging, combined with extensive rock and mineral testing analysis, a systematic analysis is conducted on the characteristics, diagenesis types, genesis and controlling factors of deep to ultra-deep abnormally high porosity clastic rock reservoirs in the Oligocene Linhe Formation in the Hetao Basin. The reservoir space of the deep to ultra-deep clastic rock reservoirs in the Linhe Formation is mainly primary pores, and the coupling of three favorable diagenetic elements, namely the rock fabric with strong compaction resistance, weak thermal compaction diagenetic dynamic field, and diagenetic environment with weak fluid compaction-weak cementation, is conducive to the preservation of primary pores. The Linhe Formation clastic rocks have a superior preexisting material composition, with an average total content of 90% for quartz, feldspar, and rigid rock fragments, and strong resistance to compaction. The geothermal gradient in Linhe Depression in the range of (2.0–2.6) °C/100 m is low, and together with the burial history of long-term shallow burial and late rapid deep burial, it forms a weak thermal compaction diagenetic dynamic field environment. The diagenetic environment of the saline lake basin is characterized by weak fluid compaction. At the same time, the paleosalinity has zoning characteristics, and weak cementation in low salinity areas is conducive to the preservation of primary pores. The hydrodynamic conditions of sedimentation, salinity differentiation of ancient water in saline lake basins, and sand body thickness jointly control the distribution of high-quality reservoirs in the Linhe Formation.

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