两河口水电站母线洞开挖过程围岩破坏机制

doi:10.16285/j.rsm.2017.1206

岩土力学 ›› 2019, Vol. 40 ›› Issue (1): 305-314.doi: 10.16285/j.rsm.2017.1206

两河口水电站母线洞开挖过程围岩破坏机制

蒋雄¹，徐奴文¹，周钟²，侯东奇²，李昂¹，张敏¹

1. 四川大学水力学与山区河流开发保护国家重点实验室，四川成都 610065； 2. 中国电建集团成都勘测设计研究院有限公司，四川成都 610072

收稿日期:2017-06-13 出版日期:2019-01-11 发布日期:2019-01-31
通讯作者: 徐奴文，男，1981年生，博士，副研究员，主要从事微震监测技术与工程灾害方面的研究工作。E-mail: xunuwen@scu.edu.cn E-mail:jiangx1235@163.com
作者简介:蒋雄，男，1994年生，硕士，主要从事微震监测及数值模拟方面的研究工作。
基金资助:
国家重点基础研究发展计划(973计划)(No. 2015CB057903)；国家自然科学基金面上项目(No. 51679158)。

Failure mechanism of surrounding rock of bus-bar tunnels at Lianghekou hydropower station subjected to excavation

JIANG Xiong¹, XU Nu-wen¹, ZHOU Zhong², HOU Dong-qi², LI Ang¹, ZHANG Min¹

1. State Key Laboratory of Hydraulics and Mountain River Engineering, Sichuan University, Chengdu, Sichuan 610065, China; 2. PowerChina Chengdu Engineering Corporation Limited, Chengdu, Sichuan 610072, China

Received:2017-06-13 Online:2019-01-11 Published:2019-01-31
Supported by:
This work was supported by the National Key Basic Research Program of China (973 Program) (2015CB057903) and the General Program of the National Natural Science Foundation of China (51679158).

摘要/Abstract

摘要： 为研究两河口水电站5#、6#母线洞开挖过程中围岩破坏机制，构建高精度微震监测系统，通过实时监测微震聚集情况并分析聚集区微震信号，圈定地下厂房开挖卸荷过程危险区域；依据前期勘探资料及现场开挖进度，借助UDEC离散元程序，揭示母线洞开挖后变形分布区域及破坏机制。研究结果表明：（1）微震活动和地下厂房开挖密切相关，5#、6#母线洞开挖引起微震事件聚集和锚杆应力计读数增加，开挖形成的临空面容易失稳。（2）围岩破裂发生前，微震信号高频成分先减少后增多。（3）开挖后的母线洞顶拱及主变室上游边墙位移明显，且呈现拉张破坏现象。研究结果可为两河口水电站地下厂房后期开挖支护提供重要参考依据。

关键词: 微震监测, 地下厂房, 频率特征, 离散元, 围岩稳定, 母线洞

Abstract: A high-precision microseismic(MS) monitoring system was installed to evaluate the stability of the #5, #6 bus-bar tunnels at Lianghekou hydropower station during excavation. The dangerous areas of underground powerhouse during excavation were delineated through real-time monitoring of MS accumulation and analyzing frequency of microseismic signal in gathering area. Based on previous exploration data and site excavation progress, and with the aid of UDEC discrete element program, the deformation distribution and failure mechanism of bus-bar tunnels after excavation were revealed. The MS activities were closely related to excavation of underground powerhouse. The excavation of #5, #6 bus-bar tunnels resulted in the accumulation of MS events and the increasing of stress gauge reading. The free surfaces formed by excavation were prone to instability. The high frequency components of MS signal decreased at first and then increased before surrounding rock fractured. Displacements at the top arch of bus-bar and the upstream side wall of main transformer chamber were remarkable and presented tensile failure after excavation. The research results provide important references for excavation and reinforcement of underground powerhouse at Lianghekou hydropower station.

Key words: microseismic monitoring, underground powerhouse, frequency characteristics, distinct element, surrounding rock mass stability, bus-bar tunnels

中图分类号:

TU 457

蒋雄, 徐奴文, 周钟, 侯东奇, 李昂, 张敏, . 两河口水电站母线洞开挖过程围岩破坏机制[J]. 岩土力学, 2019, 40(1): 305-314.

JIANG Xiong, XU Nu-wen, ZHOU Zhong, HOU Dong-qi, LI Ang, ZHANG Min, . Failure mechanism of surrounding rock of bus-bar tunnels at Lianghekou hydropower station subjected to excavation[J]. Rock and Soil Mechanics, 2019, 40(1): 305-314.

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两河口水电站母线洞开挖过程围岩破坏机制

Failure mechanism of surrounding rock of bus-bar tunnels at Lianghekou hydropower station subjected to excavation

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