基于事故分析的深基坑承压水突涌机理研究  被引量:21

Analysis and Treatment of Inrushing Accidents in Deep Excavation

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作  者:李瑛[1] 胡德军 叶向前[3] 胡琦[4] 刘兴旺[1] Li Ying;Hu Dejun;Ye Xiangqian;Hu Qi;Liu Xingwang(Zhejiang Province Architectural Design and Research Institute,Hangzhou 310006,P.R.China;Zhejiang Yaosha Group Co.,Ltd.,Hangzhou 310016,P.R.China;Hangzhou Geotechnical Engineering andSurveying Research Institute,Hangzhou 310010,P.R.China;College of Civil Engineering and Architecture,Zhejiang University of Technologyt Hangzhou 310014,P.R.China)

机构地区:[1]浙江省建筑设计研究院,杭州310006 [2]浙江耀厦控股集团有限公司,杭州310016 [3]杭州市勘测设计研究院,杭州 [4]浙江工业大学建筑工程学院,杭州310014

出  处:《地下空间与工程学报》2019年第3期943-948,共6页Chinese Journal of Underground Space and Engineering

基  金:国家自然科学基金(51478434)

摘  要:承压水突涌事故多沿基坑底穿透相对隔水层的钻孔发生,而围堰结合注浆加固是主要处理方法。首先介绍杭州钱江新城区域近年发生的5起承压水突涌事故及其处理方案,然后将事故简化为轴对称问题进行分析,利用事故发生前后钻孔内竖向渗流平衡条件研究事故原因,根据基坑开挖到底时加固体重力平衡和加固体边缘渗透平衡条件分析加固范围,最后通过围堰稳定性分析确定围堰高度和宽度。结合典型地层结构和地区经验,分析结果表明:相对隔水层有钻孔时,事故区域基坑最大开挖深度依次由钻孔内竖向渗透平衡、加固体边缘渗透平衡和坑底土层重力平衡决定;围堰高度由承压水头和竖向渗透平衡决定,围堰宽度由开挖面水平渗透平衡和围堰边坡稳定性控制。The confined water inrushing accidents were usually caused by drilling holes in the foundation while the effective and used widely treatment method was cofferdam and grouting. After five accidents occurred in Hangzhou C B D recently were introduced, an axisymmetric model was proposed to calculate the maximum excavation depth according to seepage equilibrium of sand and gravitational equilibrium of the grouted body. Based on typical strata and local experience, the relationship between confined water pressure and maximum excavation depth was investigated and the dominant factors were in order vertical seepage equilibrium, seepage equilibrium around the grouted body and gravitational equilibrium of pit bottom. Cofferdam height was determined by confined water head and vertical seepage stability. Cofferdam radius was obtained by its slope stability and seepage equilibrium along the excavation surface.

关 键 词:承压水 突涌事故 基坑 渗透破坏 钻孔 

分 类 号:O319.56[理学—一般力学与力学基础]

 

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