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帷幕灌浆工艺在深井突泥涌水治理中的具体应用 被引量:1
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作者 杨俊林 《云南水力发电》 2023年第11期193-199,共7页
滇中引水工程香炉山隧洞,面临高埋深、富水、软岩大变形、突泥涌水、龙蟠-乔后活动(F10-2)断裂带、石灰窑断层等复杂地质条件.为了攻克地质难题,采用新材料、新技术工艺性试验应用研究等创新举措,最终实现深井突泥涌水塌方体整体固结和... 滇中引水工程香炉山隧洞,面临高埋深、富水、软岩大变形、突泥涌水、龙蟠-乔后活动(F10-2)断裂带、石灰窑断层等复杂地质条件.为了攻克地质难题,采用新材料、新技术工艺性试验应用研究等创新举措,最终实现深井突泥涌水塌方体整体固结和二次开挖穿越.研究结果表明:前进式帷幕灌浆配合新材料工艺,对处理香炉山5号施工支洞斜井,高埋深、富水、软岩大变形、突泥涌水、石灰窑断层存在局限性;采用地表定向钻高压劈裂灌浆技术,对突泥涌水、地质断层、高埋深等地质洞段的处理方案,岩体固结效果显著;地表高压劈裂灌浆技术已经在丽江段得到成功实践,为滇中引水工程和穿越香炉山提供技术支撑. 展开更多
关键词 前进式帷幕灌浆 地表定向钻高压劈裂灌浆 突泥涌水治理 固结
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浅埋富水卵石土岩层隧道地表止水注浆施工技术 被引量:6
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作者 刘利成 《铁道建筑技术》 2014年第9期1-3,51,共4页
浅埋富水卵石土岩层隧道在富水地段易发生较大规模的突涌泥石流。以紫云铁路跑马岗隧道DK14+300掌子面突涌泥石流地段所采取的掌子面流坍体封闭、地表止水注浆施工技术为例,阐述施工过程的技术参数确定、设备配置、工艺以及注意事项等... 浅埋富水卵石土岩层隧道在富水地段易发生较大规模的突涌泥石流。以紫云铁路跑马岗隧道DK14+300掌子面突涌泥石流地段所采取的掌子面流坍体封闭、地表止水注浆施工技术为例,阐述施工过程的技术参数确定、设备配置、工艺以及注意事项等关键内容,为同类工程建设提供借鉴。 展开更多
关键词 隧道 卵石土 地表止水注浆 固结岩体
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XFEM modeling of hydraulic fracture in porous rocks with natural fractures 被引量:2
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作者 Tao Wang ZhanLi Liu +2 位作者 QingLei Zeng Yue Gao Zhuo Zhuang 《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS CSCD 2017年第8期45-59,共15页
Hydraulic fracture (HF) in porous rocks is a complex multi-physics coupling process which involves fluid flow, diffusion and solid deformation. In this paper, the extended finite element method (XFEM) coupling wit... Hydraulic fracture (HF) in porous rocks is a complex multi-physics coupling process which involves fluid flow, diffusion and solid deformation. In this paper, the extended finite element method (XFEM) coupling with Biot theory is developed to study the HF in permeable rocks with natural fractures (NFs). In the recent XFEM based computational HF models, the fluid flow in fractures and interstitials of the porous media are mostly solved separately, which brings difficulties in dealing with complex fracture morphology. In our new model the fluid flow is solved in a unified framework by considering the fractures as a kind of special porous media and introducing Poiseuille-type flow inside them instead of Darcy-type flow. The most advantage is that it is very convenient to deal with fluid flow inside the complex frac^xre network, which is important in shale gas extraction. The weak formulation for the new coupled model is derived based on virtual work principle, which includes the XFEM formulation for multiple fractures and fractures intersection in porous media and finite element formulation for the unified fluid flow. Then the plane strain Kristianovic-Geertsma-de Klerk (KGD) model and the fluid flow inside the fracture network are simulated to validate the accuracy and applicability of this method. The numerical results show that large injection rate, low rock permeability and isotropic in-situ stresses tend to lead to a more uniform and productive fracture network. 展开更多
关键词 hydraulic fracture XFEM porous media fluid flow multi-physics coupling
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