四川盆地东南部构造复杂地区深层页岩气富集特征

Kaiming Wang
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引用次数: 1

摘要

近年来,四川盆地及东南缘复杂构造区五峰组—龙马溪组深层页岩气勘探取得突破性进展,勘探开发前景广阔。本研究以四川盆地东南缘复杂构造区南川地区为研究对象,通过钻井资料和实验分析试验,探讨深层页岩气富集特征,特别是地层温度、压力等地层环境变化对深层页岩气富集的影响。研究认为:(1)优势沉积相带是页岩气成藏的基础,研究区龙马溪组一段五峰组形成于深水陆架沉积环境,页岩发育良好,为页岩气成藏提供了有利的物质条件。(2)有机碳含量控制着纳米级有机质孔隙的发育程度,高压-超高压环境有利于孔隙的维持和深部页岩物性的改善。(3)深层页岩气具有典型的高温、高地应力、特低渗透率地质特征。研究发现,温度对页岩吸附能力的影响比对压力的影响更为显著,深层页岩气以游离气为主。高压可以减缓或抑制气体流动,有利于页岩气的保存。(4)气体扩散复杂,高温使气体扩散加剧,加剧了气体的迁移和逸出,而高压可减缓或抑制气体流动,有利于页岩气的保存。(5)埋藏深度与压力系数呈正相关关系,且埋藏深度对向斜页岩气压力系数的影响更为显著,表明深层向斜页岩气储层保存条件越来越好。在复杂构造带中,深度较大的残余向斜岩心、内凹陷隆起和带逆断层的斜坡是页岩气勘探的有利目标。
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Enrichment characteristics of deep shale gas in tectonically complex regions of the southeastern sichuan basin, China

In recent years, breakthroughs have been made in deep shale gas exploration in the Wufeng-Longmaxi formations in the complex tectonic region of the Sichuan Basin and southeastern margin, indicating promising prospects for exploration and development. This study focuses on the Nanchuan area of the complex tectonic region of the southeastern Sichuan Basin margin, using data from drilling wells and experimental analysis tests to investigate deep shale gas enrichment characteristics, particularly the effects of changes in the formation environment such as formation temperature and pressure on deep shale gas enrichment. The study concludes that: (1) The dominant sedimentary phase zone is the basis for hydrocarbon formation in shale gas reservoirs, with the Wufeng Formation–the first member of Longmaxi Formation in the study area—formed in a deep-water shelf sedimentary environment with high-quality shale development, which provides favorable material conditions for the formation of shale gas reservoirs. (2) Organic carbon content controls the degree of development of nanoscale organic matter pores, and the high-pressure-ultra-high-pressure environment helps maintain pores and improve the physical properties of deep shale. (3) Deep shale gas exhibits typical geological characteristics of high temperature, high ground stress, and exceptionally low permeability. The study finds the influence of temperature on the adsorption capacity of shale is more significant than that of pressure, and deep shale gas is primarily free gas. High pressure can slow down or inhibit gas flow, which is beneficial to shale gas preservation. (4) Gas diffusion is complex, with high temperature increasing the diffusion of gas, aggravating the migration and escape of gas, while high pressure can slow down or inhibit gas flow, which is beneficial to shale gas preservation. (5) The burial depth and pressure coefficient show a positive correlation, and the burial depth has a more significant effect on the pressure coefficient of syncline shale gas, indicating that preservation conditions of deep syncline shale gas reservoirs are becoming better. Residual syncline core with larger depths, inner-sag uplift, and slopes with reverse faults can be favorable targets for shale gas exploration in complex tectonic zones.

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