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基于地质工程一体化思路的页岩有利岩相优选

林轩秦春宇陈康博朱建峰逄海明李忠博王伟刘硕李海彬姜振学李卓

石油实验地质2025，Vol.47Issue(3)：552-568,17.

石油实验地质2025，Vol.47Issue(3)：552-568,17.DOI:10.11781/sysydz2025030552

基于地质工程一体化思路的页岩有利岩相优选

Selection of favorable shale lithofacies based on an integrated geology and engineering approach:

林轩 ¹秦春宇 ¹陈康博 ¹朱建峰 ²逄海明 ²李忠博 ²王伟 ²刘硕 ²李海彬 ²姜振学 ¹李卓¹

作者信息

1. 油气资源与工程全国重点实验室(中国石油大学),北京 102249||中国石油大学(北京)非常规油气科学技术研究院,北京 102249
2. 中国石化东北油气分公司,长春 130000
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摘要

Abstract

The Lishu Fault Depression in the Songliao Basin holds significant potential for shale gas exploration and development.This study took the shale in the Yingcheng Formation of the Lishu Fault Depression as the research subject.A series of experiments,including total organic carbon(TOC)content measurement,rock pyrolysis,X-ray diffraction(XRD),field emission scanning electron microscopy(FE-SEM),and small-scale hydraulic fracturing physical simulations,were conducted to identify the most favorable shale lithofacies based on an integrated geology and engineering approach.The results indicated that the study area exhibited a high content of clay and carbonate minerals,with well-developed dissolution pores in carbonates and a complex fracture system.The seepage mecha-nisms of the shale reservoirs included desorption and adsorption,diffusion,slippage flow,and Darcy flow.Small-scale hydraulic fracturing experiments revealed that clay rock content significantly influenced fracturing performance.Specifically,clay-rich lithofacies exhibited low fracture pressure peaks,rapid fracturing pressure declines,and an inability to form transverse fractures.Vertical and bedding-parallel lamellated fractures mostly developed,resulting in poor fracturing efficiency.Through analyzing multi-scale pore structures and reservoir permeability,the study found that shale reservoirs in the study area primarily developed mesopores,which enhanced pore connectivity and volume.These mesopores were also the main contributors to the improved specific surface area and served as the primary channels for fluid seepage.Therefore,slippage flow was identified as the predominant seepage mechanism in the study area.High clay content significantly affected fracturing efficiency.Mixed lithofacies with lower clay content and well-developed dissolution pores demonstrated superior artificial fracture propagation and enhanced permeability after fracturing modification.The most favorable lithofacies in the study area were identified as the organic-rich laminated calcareous mixed shale and the organic-rich laminated siliceous mixed shale.After implementing the integrated geology and engineering production approach in well X-A,shale gas pro-duction increased substantially.These findings provide important theoretical support and practical guidance for optimizing shale gas exploration and development in the study area.

关键词

孔隙结构/渗流能力/地质工程一体化/页岩气/梨树断陷/松辽盆地

Key words

pore structure/permeability/integrated geology and engineering approach/shale gas/Lishu Fault Depression/Songliao Basin

分类

能源科技

引用本文复制引用

林轩,秦春宇,陈康博,朱建峰,逄海明,李忠博,王伟,刘硕,李海彬,姜振学,李卓..基于地质工程一体化思路的页岩有利岩相优选[J].石油实验地质,2025,47(3):552-568,17.

基金项目

国家自然科学基金项目(42472182)和中国石化科技部项目(P22084)共同资助. （42472182）

石油实验地质

OA北大核心

ISSN：1001-6112

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