页岩中方解石类型、成因及地质意义OA
Types,origin,and geological implications of calcites in shales
方解石作为页岩中广泛分布的脆性矿物,在页岩油气赋存、储层改造及沉积环境指示方面具有重要意义.近年来,围绕页岩中方解石的类型、成因机制及地质意义的研究逐渐增多,但系统性综述较少.首先将页岩中的方解石分为泥晶方解石(分散颗粒状、结核状、纹层状、胶结物和生物成因结构)和亮晶方解石(纤维状、刃状和等轴状)两类.研究表明:方解石脉的形成受流体超压、构造应力与结晶力共同驱动,早期形成过程受微生物还原作用影响,中期与有机质脱羧作用相关,晚期与甲烷热氧化流体活动关联,并在热演化过程中出现方解石的溶蚀窗与逆溶蚀现象.陆相与海相页岩中的方解石形成机制总体相似,差异主要源于沉积环境.泥晶方解石的大量富集、页岩与生物介壳层的组合以及方解石包裹体都对恢复古沉积与成岩环境具有一定指示意义.在页岩脆性方面,方解石作为脆性矿物提升了页岩脆性指数,促进了水力压裂裂缝网络的扩展,但其胶结作用又会降低孔隙度,呈现储层改造的"双刃剑"效果.此外,方解石脉体记录了油气运移过程中的信息,其溶蚀孔与层理缝为页岩油气提供了重要储集空间.目前,古老高演化页岩中的方解石成因机制及其与有机质生烃的耦合关系尚不明确,页岩中方解石U-Pb同位素定年技术的精确度还有很大提升空间,未来应提高检测技术精度,进一步揭示页岩中方解石的复杂形成过程,为富方解石页岩油气的甜点预测与高效开发提供更为有力的理论支撑.
Calcites,brittle minerals that are extensively distributed in shales,hold great significance for indicating shale oil and gas occurrence,reservoir stimulation,and sedimentary environments.In recent years,increasing studies have been conducted on the types,genetic mechanisms,and geological significance of calcites in shales.However,systematic reviews on these topics remain limited.In this study,calcites in shales are categorized into two types initially:micritic calcites(including dispersed granular,nodular,and lamellar calcites,calcite cements,and biogenic calcites)and sparry calcites(including fibrous,bladed,and equiaxed calcites).The subsequent results indicate that the formation of calcite veins is jointly driven by fluid overpressure,tectonic stress,and crystallization forces.The formation process is affected by microbial reduction in the early stage,relates to the decarboxylation of organic matter in the middle stage,and is associated with the methane thermochemical oxidation-related fluid activity in the late stage.During the thermal evolution of calcite veins,dissolution windows and retrograde dissolution also occur.Calcites in lacustrine and marine shales generally share similar formation mechanisms,with differences attributed primarily to sedimentary environments.The high degree of enrichment of micritic calcites,the combination of shales and bioclastic layers,and calcite inclusions all provide valuable indications for the reconstruction of paleosedimentary and diagenetic environments.Regarding shale brittleness,calcites both enhance the shales'brittleness index and promote the propagation of hydraulically stimulated fracture networks as brittle minerals.However,their cementation reduces reservoir porosity,creating dual effects on reservoir stimulation.Additionally,calcite veins preserve records of the hydrocarbon migration process,while their dissolution pores and bedding-parallel fractures offer important reservoir spaces for shale oil and gas.Nevertheless,the genetic mechanisms of calcites in ancient,highly evolved shales and their coupling relationship with the hydrocarbon generation process of organic matter remain poorly understood.Furthermore,the accuracy of U-Pb dating techniques for calcites in shales is yet to be substantially improved,and further improvements in the precision of relevant detection techniques are required to further reveal the complex formation process of the calcites.Advancements in these areas will provide more improved theories for the sweet spot prediction and efficient exploitation of oil and gas from calcite-rich shales.
陈泓州;卢志远;朱光有;王嘉宁;郑凯航;刘健勇;张杰志
南方复杂页岩油气地质与开发湖北省重点实验室,湖北 武汉 430100||长江大学 地球科学学院,湖北 武汉 430100南方复杂页岩油气地质与开发湖北省重点实验室,湖北 武汉 430100||长江大学 地球科学学院,湖北 武汉 430100南方复杂页岩油气地质与开发湖北省重点实验室,湖北 武汉 430100||长江大学 地球科学学院,湖北 武汉 430100南方复杂页岩油气地质与开发湖北省重点实验室,湖北 武汉 430100||长江大学 地球科学学院,湖北 武汉 430100南方复杂页岩油气地质与开发湖北省重点实验室,湖北 武汉 430100||长江大学 地球科学学院,湖北 武汉 430100南方复杂页岩油气地质与开发湖北省重点实验室,湖北 武汉 430100||长江大学 地球科学学院,湖北 武汉 430100南方复杂页岩油气地质与开发湖北省重点实验室,湖北 武汉 430100||长江大学 地球科学学院,湖北 武汉 430100
能源科技
脆性指数地质意义成因机制沉积环境方解石脉页岩
brittleness indexgeological significancegenetic mechanismsedimentary environmentcalcite veinshale
《石油与天然气地质》 2026 (2)
418-440,23
湖北省卓越研究群体项目(JCKXXM202500016).
评论