Influences of different alkaline and acidic diagenetic environments on diagenetic evolution and reservoir quality of alkaline lake shales

IF 7 Q1 ENERGY & FUELS Petroleum Exploration and Development Pub Date : 2024-02-01 DOI:10.1016/S1876-3804(24)60008-X
Changzhi LI , Pei GUO , Jinghong XU , Kai ZHONG , Huaguo WEN
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Abstract

Thin section and argon-ion polishing scanning electron microscope observations were used to analyze the sedimentary and diagenetic environments and main diagenesis of the Permian Fengcheng Formation shales in different depositional zones of Mahu Sag in the Junggar Basin, and to reconstruct their differential diagenetic evolutional processes. The diagenetic environment of shales in the lake-central zone kept alkaline, which mainly underwent the early stage (Ro<0.5%) dominated by the authigenesis of Na-carbonates and K-feldspar and the late stage (Ro0.5%) dominated by the replacement of Na-carbonates by reedmergnerite. The shales from the marginal zone underwent a transition from weak alkaline to acidic diagenetic environments, with the early stage dominated by the authigenesis of Mg-bearing clay and silica and the late stage dominated by the dissolution of feldspar and carbonate minerals. The shales from the transitional zone also underwent a transition from an early alkaline diagenetic environment, evidenced by the formation of dolomite and zeolite, to a late acidic diagenetic environment, represented by the reedmergnerite replacement and silicification of feldspar and carbonate minerals. The differences in formation of authigenic minerals during early diagenetic stage determine the fracability of shales. The differences in dissolution of minerals during late diagenetic stage control the content of free shale oil. Dolomitic shale in the transitional zone and siltstone in the marginal zone have relatively high content of free shale oil and strong fracability, and are favorable “sweet spots” for shale oil exploitation and development.

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不同碱性和酸性成岩环境对碱性湖泊页岩成岩演化和储层质量的影响
利用薄片和氩离子抛光扫描电镜观察分析了准噶尔盆地马湖萨格不同沉积带二叠系凤城组页岩的沉积成因环境和主要成因过程,重建了其不同成因演化过程。湖中带页岩的成岩环境保持碱性,主要经历了以Na-碳酸盐和K-长石自生为主的早期阶段(Ro<0.5%)和以苇云母取代Na-碳酸盐为主的晚期阶段(Ro0.5%)。边缘地带的页岩经历了从弱碱性成因环境向酸性成因环境的转变,早期以含镁粘土和二氧化硅的自生为主,晚期以长石和碳酸盐矿物的溶解为主。过渡带的页岩也经历了从早期碱性成因环境到晚期酸性成因环境的转变,早期碱性成因环境表现为白云石和沸石的形成,晚期酸性成因环境表现为长石和碳酸盐矿物的苇镁石置换和硅化。早期成岩阶段自生矿物形成的差异决定了页岩的可压裂性。成岩晚期矿物溶解的差异控制着页岩游离油的含量。过渡带的白云质页岩和边缘带的粉砂岩具有相对较高的游离页岩油含量和较强的压裂性,是页岩油开采和开发的有利 "甜点"。
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CiteScore
11.50
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473
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