山前冲断带构造变形特征及滑脱层影响作用——以双鱼石构造栖霞组气藏为例

doi:10.3969/j.issn.1672-7703.2025.06.012

摘要/Abstract

摘要： 双鱼石构造栖霞组气藏作为龙门山山前带上发现的大型海相碳酸盐岩气藏，气藏内断层极为发育、构造样式复杂，构造特征是影响气藏开发的重要因素。鉴于该区构造受多期构造运动与多滑脱层共同控制，而现有研究对多滑脱体系的控制作用探讨不足，本文采用 “物理模拟-数值模拟-地质验证” 递进式技术路线，通过设计不同滑脱层性质与厚度的模型，揭示多滑脱层对构造变形的控制机制，并结合实钻资料验证模拟结果，指导气藏开发部署。结果表明：①双鱼石地区发育寒武系（深部主滑脱层）、三叠系（浅部主滑脱层）及志留系（局部次滑脱层）三套滑脱体系，“上下双滑脱”滑脱层组合是形成该区逆冲叠瓦 - 高陡褶皱构造的关键；②滑脱层性质显著影响构造样式：弱滑脱层易形成连续叠瓦逆冲构造，强滑脱层则增强上覆地层变形复杂性，削弱叠瓦构造连续性；③滑脱层厚度控制构造演化：薄滑脱层以 “褶皱主导、断层次生” 为特征，中厚层滑脱层形成隔档式箱状褶皱-叠瓦扇构造，厚滑脱层发育 “滑脱层主导” 巨型褶皱-冲断系统，且厚层塑性滑脱层封盖性能更优；④基于构造样式差异，提出冲起构造区 “稀井网+大斜度井”、单背斜区 “长水平段水平井（高点部署）”、断背斜区 “大斜度井+水平井组合” 的开发模式。研究成果厘清了多滑脱层控制下的构造形成机制，为龙门山山前带类似气藏的勘探开发提供理论支撑与技术参考。

关键词: 双鱼石构造栖霞组气藏滑脱层物理模拟数值模拟构造样式

Abstract: The Qixia Formation gas reservoir in the Shuangyushi structure, the first large-scale gas reservoir discovered in the Longmenshan foothill belt, is characterized by extremely developed faults and complex structural patterns, where structural features are a key factor influencing reservoir development. Considering that the structure in this area is jointly controlled by multi - stage tectonic movements and multi - detachment layers, while the existing studies have insufficient discussion on the controlling effect of the multi - detachment system, this paper adopts a progressive technical route of “physical simulation - numerical simulation - geological verification”. By designing models with different properties and thicknesses of detachment layers, the controlling mechanism of multi - detachment layers on structural deformation is revealed. Combined with actual drilling data, the simulation results are verified to guide the development and deployment of the gas reservoir. The results show that: ① Three sets of detachment systems are developed in the Shuangyushi area, namely the Cambrian (deep main detachment layer), Triassic (shallow main detachment layer), and Silurian (local secondary detachment layer). The “upper-lower double detachment” combination is the key to forming the thrust imbricate - steep fold structure in this area; ② The properties of detachment layers significantly affect structural styles: weak detachment layers tend to form continuous imbricate thrust structures, while strong detachment layers enhance the deformation complexity of overlying strata and weaken the continuity of imbricate structures; ③ The thickness of detachment layers controls structural evolution: thin detachment layers are characterized by “fold-dominated, fault-secondary”, mediumthick detachment layers form compartmental box folds - imbricate fan structures, and thick detachment layers develop “detachment layerdominated” giant fold - thrust systems, with thick plastic detachment layers having better sealing performance; ④ Based on the differences in structural styles, development models are proposed: the “sparse well pattern + high - angle well” model for the pop - up structure area, the “long horizontal section horizontal well (deployed at the high point)” model for the monocline anticline area, and the “high - angle well + horizontal well combination” model for the faulted anticline area. The research results clarify the structural formation mechanism under the control of multi - detachment layers and provide theoretical support and technical reference for the exploration and development of similar gas reservoirs in the Longmenshan piedmont belt.

Key words: Shuangyushi structure, Qixia Formation gas reservoir, detachment layer, physical simulation, numerical simulation, structural style

中图分类号:

TE122.11

彭先,罗强,兰雪梅,文雯,闫梦楠,乐幸福,王俊杰. 山前冲断带构造变形特征及滑脱层影响作用——以双鱼石构造栖霞组气藏为例[J]. 中国石油勘探, 2025, 30(6): 171-184.

Peng Xian,Luo Qiang,Lan Xuemei,Wen Wen,Yan Mengnan, Le Xingfu,Wang Junjie. Structural Deformation Style and Impacts of Detachment Layers in a Fold-Thrust Belt:A case study of Qixia Formation gas reservoir in Shuangyushi structure[J]. China Petroleum Exploration, 2025, 30(6): 171-184.

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