埋藏过程对深-超深碎屑岩成因及优质储层发育的影响:中国西北准噶尔盆地南缘下白垩统清水河地层案例研究

IF 7 Q1 ENERGY & FUELS Petroleum Exploration and Development Pub Date : 2024-04-01 DOI:10.1016/S1876-3804(24)60029-7
Sirui CHEN , Benzhong XIAN , Youliang JI , Jiaqi LI , Rongheng TIAN , Pengyu WANG , Heyuan TANG
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引用次数: 0

摘要

以准噶尔盆地南缘下白垩统清水河地层为例,利用薄片、扫描电镜、电子探针、稳定同位素组成和流体包裹体数据,研究了前陆盆地埋藏过程对深部和超深部碎屑岩成因和优质储层发育的影响。清水河地层先后经历了缓慢浅埋、构造抬升、渐进深埋和快速深埋四个埋藏阶段。缓慢浅埋阶段和构造抬升阶段不仅可以缓解岩粒的机械压实作用,而且可以在储层中长期维持开放的成因体系,促进可溶性组分在流星淡水作用下的溶解,抑制溶解产物在储层中的沉淀。后期的快速深埋过程促进了流体超压的形成,有效抑制了压实和胶结对原生孔隙的破坏。流体超压促进了储层中微裂缝的发育,从而增强了有机酸的溶解作用。基于孔隙度演化历史的定量重建发现,长期缓慢浅埋和构造抬升过程对深-超深优质碎屑岩储层发育的贡献最大,其次是后期快速深埋过程,渐进深埋过程贡献不大。
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Influences of burial process on diagenesis and high-quality reservoir development of deep–ultra-deep clastic rocks: A case study of Lower Cretaceous Qingshuihe Formation in southern margin of Junggar Basin, NW China

Taking the Lower Cretaceous Qingshuihe Formation in the southern margin of Junggar Basin as an example, the influences of the burial process in a foreland basin on the diagenesis and the development of high-quality reservoirs of deep and ultra-deep clastic rocks were investigated using thin section, scanning electron microscope, electron probe, stable isotopic composition and fluid inclusion data. The Qingshuihe Formation went through four burial stages of slow shallow burial, tectonic uplift, progressive deep burial and rapid deep burial successively. The stages of slow shallow burial and tectonic uplift not only can alleviate the mechanical compaction of grains, but also can maintain an open diagenetic system in the reservoirs for a long time, which promotes the dissolution of soluble components by meteoric freshwater and inhibits the precipitation of dissolution products in the reservoirs. The late rapid deep burial process contributed to the development of fluid overpressure, which effectively inhibits the destruction of primary pores by compaction and cementation. The fluid overpressure promotes the development of microfractures in the reservoir, which enhances the dissolution effect of organic acids. Based on the quantitative reconstruction of porosity evolution history, it is found that the long-term slow shallow burial and tectonic uplift processes make the greatest contribution to the development of deep–ultra-deep high-quality clastic rock reservoirs, followed by the late rapid deep burial process, and the progressive deep burial process has little contribution.

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