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A Top Pilot Tunnel Preconditioning Method for the Prevention of Extremely Intense Rockbursts in Deep Tunnels Excavated by TBMs 总被引:2,自引:0,他引:2
Chuanqing Zhang Xiating Feng Hui Zhou Shili Qiu Wenping Wu 《Rock Mechanics and Rock Engineering》2012,45(3):289-309
The headrace tunnels at the Jinping II Hydropower Station cross the Jinping Mountain with a maximum overburden depth of 2,525 m,
where 80% of the strata along the tunnels consist of marble. A number of extremely intense rockbursts occurred during the
excavation of the auxiliary tunnels and the drainage tunnel. In particular, a tunnel boring machine (TBM) was destroyed by
an extremely intense rockburst in a 7.2-m-diameter drainage tunnel. Two of the four subsequent 12.4-m-diameter headrace tunnels
will be excavated with larger size TBMs, where a high risk of extremely intense rockbursts exists. Herein, a top pilot tunnel
preconditioning method is proposed to minimize this risk, in which a drilling and blasting method is first recommended for
the top pilot tunnel excavation and support, and then the TBM excavation of the main tunnel is conducted. In order to evaluate
the mechanical effectiveness of this method, numerical simulation analyses using the failure approaching index, energy release
rate, and excess shear stress indices are carried out. Its construction feasibility is discussed as well. Moreover, a microseismic
monitoring technique is used in the experimental tunnel section for the real-time monitoring of the microseismic activities
of the rock mass in TBM excavation and for assessing the effect of the top pilot tunnel excavation in reducing the risk of
rockbursts. This method is applied to two tunnel sections prone to extremely intense rockbursts and leads to a reduction in
the risk of rockbursts in TBM excavation. 相似文献
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澜沧江某水电站右坝肩工程边坡倾倒变形问题的数值 模拟研究 总被引:1,自引:0,他引:1
澜沧江某水电站处于青藏高原东部边缘地带,属于高山峡谷地形地貌,高地应力环境,岩体卸荷裂隙很发育,使得倾倒变形和岩体质量、断裂活动及地震构造一样成为影响工程边坡岩体稳定的主要因素。针对工程边坡的大变形问题可采用离散元的数值模拟分析方法。通过建立理论开挖和工程边坡开挖离散元模型,可分别得出倾倒变形破坏机理发展过程为初期弱倾倒变形岩体的层内剪切错动、强倾倒变形岩体的层内拉张变形、强倾倒变形岩体的切层张-剪破裂及极强倾倒破裂岩体的折断张裂(坠覆)破裂和工程边坡的变形范围、确定开挖面及加固方式等。通过工程边坡模型的计算结果和现场地质调查成果的比较表明,计算结果和实际情况基本吻合。 相似文献
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Nowadays the number of deep tunnels is greatly increased. Since there are lacking successful numerical methods and experiences from relevant engineering construction and design of deep tunnels, massive on-site monitoring and testing should be conducted to support the design and safety control. The present monitoring and testing design methods are proposed according to the characteristics of shallow underground engineering. However, when they are introduced into the deep tunnels, great challenges are encountered. In this study, the failure of surrounding rock mass in the field was presented and then the deformation and failure responses of surrounding rock mass were obtained during excavation by various advanced observation techniques. Based on the acquired information, this study analyzed the mechanical response characteristics of surrounding rock mass during excavation and lining at the operating period. Then we discussed the problems arising from the application of current modern monitoring methods. Six suggestions were put forward relating to the monitoring and testing design of the representative section in the deep tunnel. This study can provide helpful guidance to improve the design methods in similar projects. 相似文献
5.
基于量测位移的隧洞围岩弹性抗力系数反演方法 总被引:1,自引:0,他引:1
在水工隧洞工程中,岩石弹性抗力系数K反映了岩石弹性抗力的大小,是设计环节中需要确定的一个极为重要的基础计算参数。水工隧洞工程中需用水压法试验测定弹性抗力系数,由于水压法测定抗力系数不仅耗时、费工、且试验工艺复杂。本文通过对比分析弹性状态下深埋圆形隧洞开挖支护与水压法试验力学效应关系,提出一种基于量测隧洞位移的围岩抗力系数的反演方法,该法可根据量测隧洞位移直接反演得到弹性抗力系数。结合北京市南水北调配套工程南干渠工程试验段工程实践,对浅埋水工隧洞位移进行监测,利用提出的反演方法,得到了隧洞围岩的弹性抗力系数。提出的反演方法为复杂水工隧洞不同围岩应力状态问题的弹性抗力系数反演提供参考和借鉴。 相似文献
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现有上硬下软边坡的研究大都集中在压缩挤出变形的近水平泥岩、页岩基座型边坡变形演化过程,针对倾倒变形的板岩基座型边坡开挖响应研究甚少,本文以西藏玉曲河某水电站厂址边坡为研究对象,根据现场地质调查建立符合坡体实际情况的地质结构模型,采用物理试验的方法模拟原型边坡开挖。通过试验揭示上硬下软反倾边坡在开挖条件下的变形响应特征及破坏模式。研究结果表明:(1)开挖条件下上硬下软型边坡变形破坏过程分为a)下部软岩倾倒弯曲加剧;b)软岩倾倒折断,上部卸荷硬岩沿已有裂隙剪切;c)倾倒软岩滑移,卸荷硬岩剪断岩性分界部位,折断面贯通3个阶段。其变形破坏模式为下部软岩倾倒—上部硬岩剪断组合滑移型破坏;(2)开挖强倾倒区岩体会使下部软岩迅速失稳并促使上部硬岩剪切破坏;开挖引起的反倾上硬下软边坡大变形在短时间内完成,前期变形和能量积累是一个较长的过程;(3)开挖时需避免对坡脚倾倒岩体“大开挖”施工。 相似文献
7.
Two headrace tunnels and the drainage tunnel were excavated by tunnel boring machines (TBMs) in Jinping II Hydropower Station. During TBM excavation, two types of slabbing failure were encountered in these deep buried marble tunnels. One is rock bursting and the other is non-violent slabbing. In order to study the rock burst and slabbing failure, a unique true triaxial rock burst test was carried out to simulate the rock burst process with different in situ stresses. Four rock samples in different marble layers were obtained in the site, and then four experiments are conducted under the same stressed conditions as the in situ field. The rock burst process and slabbing failure phenomena of the four experiments are in good accordance with the observations of corresponding excavation site. The failure modes of slabbing and rock burst in different rock groups can be predicted based on the experiments. The influence of the slabbing and rock burst failure on TBM excavation is analyzed in depth. Non-violent slabbing is beneficial to the rock breakage process. Rock burst with violent slabbing process greatly affects the tunnel support, cutter and cutterhead damage, gripper movement and force and so on. 相似文献
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小湾水电站饮水沟大规模倾倒破坏现象的工程地质研究 总被引:12,自引:1,他引:12
倾倒破坏是陡倾层状岩体一类主要的变形破坏形式,一般发育于地表临空面附近的坡体浅部。根据文献资料,前人研究的倾倒破坏体能保持其完整形态者规模并不大。小湾水电站左岸坝前高边坡由于其特殊地形地貌及其岩体结构条件,使得如此大规模的倾倒变形体能保持其完整形态至今。由于倾倒变形体紧邻大坝且地势较高,一旦失稳,将给小湾水电站的建设造成不可估量的损失。查明倾倒破坏堆积体规模及其岩体结构特征,为倾倒堆积体边坡支护方案选择及稳定性评价参数选取提供依据。更重要的是,揭示这类大规模的倾倒破坏表现特征及其形成条件,对认识复杂条件下岩石高边坡的变形破坏机理具有一定指导意义。本文通过细致的野外调查,揭示了一类发育深度较大的大规模倾倒变形破坏。通过对边坡的详细描述与记录,阐明了这类变形破坏发育的特征和空间展布,并对其形成机制作了简要的分析。 相似文献
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对该水电站坝址区陡立反倾板状结构岩体而言,纵向河谷的地形特征,使坝址两岸边坡大范围发育倾倒变形。针对该水电站倾倒变形问题,在掌握坝址区工程地质条件背景的基础上,通过对岩体倾倒变形基本特征及破裂程度分级等分析,建立边坡离散元的工程开挖和破坏机理的数值计算模型,得出了工程开挖边坡岩体倾倒变形特征和变形破坏机理发展过程为:初期弱倾倒变形岩体的层内剪切错动、强倾倒变形岩体的层内拉张变形、强倾倒变形岩体的切层张-剪破裂及极强倾倒破裂岩体的折断张裂(坠覆)破裂。研究结果为倾滑体的稳定性评价及工程开挖施工提供一定科学依据。 相似文献
10.
深埋隧洞工程越来越多,但相关工程经验积累不足,设计和计算方法远未成熟,深埋隧洞工程设计和施工安全控制需要大量现场监测和测试数据的支撑,而现有的监测和测试设计方法均针对浅埋工程的特点提出,在深埋隧洞施工过程中应用时遭遇到极大挑战。为此,首先依据现场揭露现象和多种先进观测技术获得的成果,分析了深埋硬岩隧洞施工期围岩的开挖力学响应特征和运行期衬砌的力学响应特征,剖析了现今主流观测方法存在的问题,提出了6条关于深埋隧洞典型断面监测和测试设计的建议,为促进此类工程相关设计方法的完善提供参考。 相似文献
11.
Influence of Rock Mass Parameters on the Performance of a TBM in a Gneissic Formation (Varzo Tunnel) 总被引:4,自引:1,他引:4
Summary The paper analyses the influence of rock mass quality on the performance of a double shield TBM in the excavation of a tunnel in a gneiss formation which is characterized by high strength and low fracture intensity.As full observation of the rock conditions was prevented by the use of segmental lining, a geomechanical survey of the face was performed during maintenance downtime and the observed conditions were correlated with the machine performance parameters for that same day. A statistical analysis of the data shows that penetration rate correlates well with a slightly modified RMR index (in which the influence of the water conditions and joint orientation were discounted), but the most important factor is by far the partial rating of the RMR classification related to joint spacing only. However in tunnels characterized by greater variability in rock strength and joint conditions, it could be worthwhile using the complete RMR index.Given the toughness of the rock, failure of the cutter bearings and supports were a frequent occurrence during excavation. Owing to this factor the influence of rock quality on the rate of advance was found to be weak and the correlation more scattered.The results obtained for the Varzo tunnel were compared with those relative to other tunnels in granitic rocks and found to be in good agreement. However the relationships obtained should be considered valid only for this type of rock; machine behaviour could be found to be markedly different in other rock types, even where rock material strength and joint frequency are the same. 相似文献
12.
岩溶隧道开挖对溶洞处治结构影响的数值模拟分析 总被引:2,自引:0,他引:2
结合清连高速公路白须公特大岩溶隧道施工过程,采用三维有限元软件(ANSYS)对白须公隧道的处治结构与隧道开挖的相互作用进行了数值模拟。以隧道开挖中处治结构和围岩稳定性为研究对象,从而分析处治结构在隧道开挖过程中的受力特性,以及隧道围岩在隧道开挖过程中的位移。通过计算结果,对处治结构在岩溶隧道中的支护效果进行了评价,采用桩-承台-单边支撑墙-联系梁的处治方式是安全可靠的。在隧道开挖过程中,开挖面附近的桩基应变、支撑墙压力都加速变大,随后逐渐稳定,说明处治结构承担了一部分围岩压力,在岩溶隧道施工开挖中发挥了重要作用。分析结果与工程实测数据比较吻合,可为隧道穿越大型溶洞提供设计和施工方面的借鉴和参考。 相似文献
13.
为定量评价隧道围岩的稳定性并指导支护设计,提出了隧道临界稳定断面的概念及基于临界稳定断面的隧道围岩稳定性分析方法,主要包括以下内容:(1)隧道临界稳定断面就是与设计开挖断面中心埋深相同、几何形状相似在无支护状态下围岩能够自稳的最大断面;(2)当设计开挖断面小于临界稳定断面时,临界稳定断面与设计开挖断面之间的围岩可以作为支护结构利用,且当其安全系数满足设计要求时,认为围岩能够长期自稳,除进行局部防护外,不需要系统支护,否则需要补充工程支护措施;(3)当设计开挖断面大于临界稳定断面时,需要进行工程支护;(4)提出了设计支护力的计算方法,即认为破坏区范围内的围岩为松散体,设计支护力 应能维持该松散体的稳定且具有一定的安全系数。通过该方法,对两种典型断面形式的铁路隧道的临界稳定断面进行了研究,并计算了不同围岩级别、不同埋深条件下围岩的自承载安全系数与所需的工程支护力。研究成果可以为隧道围岩稳定性的量化分析、支护设计等提供一种新的思路。 相似文献
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M. E. A. Mondal Tariq Siddique Bulbul Mondal M. Masroor Alam 《Journal of the Geological Society of India》2016,87(5):623-627
Slope stability of mine slopes is often associated with safety and economics during excavation. Sandstone is excavated from Rasulpur area of Fatehpur Sikri in Uttar Pradesh for the purpose of crushed, decorative and dimension stones. In the present paper an attempt has been made to characterize the rock slope faces into different stability classes. Characterization is based on geological and geotechnical parameters recorded on the outcrop during field investigation and supplemented by geomechanical properties by the laboratory test for strength of the rock intact. SMR Geomechanics classification is used to identify the stability class and remedial measures are also suggested to reduce any possible hazard. Kinematic analysis of slope was also investigated to determine the probability of any possible structurally controlled failure. On the basis of SMR Geomechanics calculations slope under investigation lies under good stability class i.e. 2a and 2b. Installation of nets during excavation can be done and for better safety spot and systematic rock bolting can be done. Kinematic study reveals that toppling failures may occur, special care must be given to the joint set which can trigger toppling failure. 相似文献
15.
反倾边坡倾倒变形演化过程的模型试验研究 总被引:1,自引:0,他引:1
以西藏扎拉水电站坝址右岸反倾边坡为工程依托,基于地质认识及相似理论建立边坡物理模型,采用分级开挖的方式模拟河谷下切作用,研究反倾岩质边坡倾倒变形的演化过程。模型开挖后变形破裂发展的过程表明:该类反倾边坡倾倒变形模式为初期卸荷回弹变形、长期重力弯曲(破裂)变形及后期蠕滑变形。通过对位移、变形速率和变形加速度变化规律的分析发现:反倾边坡倾倒变形的过程可以根据变形加速度a划分为3个演化阶段即倾倒启动阶段、稳态变形阶段和快速失稳阶段,各阶段分别对应衰减蠕变、稳态蠕变和加速蠕变的变形特征。在此基础上采用变形加速度a作为倾倒边坡稳定性判别指标,并尝试将变形加速度突破稳态蠕变上限值(a≥a2)作为边坡失稳预警判据。 相似文献
16.
建立含有非贯通层面和正交次级节理的逆层岩质边坡FLAC/PFC2D耦合计算模型,进行地震动力破坏过程模拟试验,研究了逆层岩质边坡地震动力破坏机理。试验结果证明,在地震动力破坏过程中,边坡内部层面主要产生剪切破坏,少量张拉破坏集中于逆层边坡顶部位置并且总是发生在坡体已经产生动力失稳之后,因此层面的抗拉强度并不影响逆层边坡的地震动力稳定性。坡顶正交次级节理只能产生张拉破坏,形成宏观的岩层倾倒趋势,而坡底的正交次级节理既会产生张拉破坏,也会产生剪切破坏,破坏面滑动趋势明显。动力响应坡顶放大效应和破坏面发育位置深度导致坡顶岩体的张拉倾倒早于坡底岩体的剪切滑动,与逆层边坡静力倾倒破坏顺序相反。 相似文献
17.
反倾层状岩质边坡的倾倒破坏是一种常见的地质灾害。为探究开挖条件下反倾层状岩质边坡的倾倒破坏机制以及层间剪切强度、岩层厚度因素对破坏特征的影响,利用ABAQUS有限元软件,建立黏聚力裂缝模型(Cohesive Crack Model,CCM),基于连续-离散方法,经参数标定和对比,建立反倾层状岩质边坡CCM,采用开挖并增重的方式诱发边坡倾倒破坏。数值模拟结果与古水水电站坝前倾倒变形体离心模型试验结果基本一致,验证了CCM的正确性。进一步,基于以上参数及模型,研究了反倾层状岩质边坡的破坏演化过程和应力分布特征,并探讨层间剪切强度对边坡倾倒破坏特征的影响。结果表明:坡体前缘首先发生局部折断,后缘出现明显拉裂缝,反倾岩层由下往上依次折断直至倾倒体中部(一级破裂面)。随后,坡体前缘的表层岩层被挤出,形成二级破裂面,最后一级破裂面扩展至坡体后缘,形成连通宏观的破裂面。最后,二级破裂面扩展至坡体中部,边坡完全倾倒破坏;破裂面基本沿层间法向应力峰值位置连线发育;层间剪切强度对边坡倾倒破坏特征具有显著的影响,随着层间剪切强度的增大,岩层初始折断位置逐渐降低,垮塌范围逐渐减小,破裂面倾角增大;坡体层厚越大,一级破裂面分布越深,垮塌区范围越大,坡体滑动的整体性越强。研究成果可为反倾层状岩质边坡倾倒破坏的分析和监测提供有效计算方法及依据,为此类滑坡灾害的防治提供一定参考。 相似文献
18.
For long deep tunnels as currently under construction through the Alps, mechanized excavation using tunnel boring machines (TBMs) contributes significantly to savings in construction time and costs. Questions are, however, posed due to the severe ground conditions which are in cases anticipated or encountered along the main tunnel alignment. A major geological hazard is the squeezing of weak rocks, but also brittle failure can represent a significant problem. For the design of mechanized tunnelling in such conditions, the complex interaction between the rock mass, the tunnel machine, its system components, and the tunnel support need to be analysed in detail and this can be carried out by three-dimensional (3D) models including all these components. However, the state-of-the-art shows that very few fully 3D models for mechanical deep tunnel excavation in rock have been developed so far. A completely three-dimensional simulator of mechanised tunnel excavation is presented in this paper. The TBM of reference is a technologically advanced double shield TBM designed to cope with both conditions. Design analyses with reference to spalling hazard along the Brenner and squeezing along the Lyon–Turin Base Tunnel are discussed. 相似文献
19.
Asghar Siahmansouri Javad Gholamnejad Mohammad Fatehi Marji 《Arabian Journal of Geosciences》2014,7(3):1059-1066
Twin tunnels can be used for many applications. Interaction between two tunnels is an important problem in tunnel engineering that should be studied specially. Numerical investigations are well adapted to field data and numerical methods can be used in design of rock pillar of twin circular tunnels. So far, no relationship has been provided to estimate the minimum stable rock pillar width. In this paper, the interaction between twin circular tunnels has been studied using 2D finite element analysis. To do this, a great number of twin tunnels were modeled in Phase2 software with different conditions of rock mass (RMR value) and depth of tunnel. Models were analyzed and minimum stable rock pillar width was determined. This process was repeated for three different ratios of K (ratio of horizontal stress to vertical stress, 0.5, 1, and 1.5). Finally, according to the linear and nonlinear regression methods, the best merit function was fitted to result of numerical analysis. Then, new approximate formula was proposed to estimate the minimum rock pillar width according to RMR value and depth of twin circular tunnels with different K values. The formulae are very accurate (coefficient of correlation equals to minimum 0.96) that can be used for estimating the minimum rock pillar width of twin circular tunnels. 相似文献
20.
Safety Management Based on Detection of Possible Rock Bursts by AE Monitoring during Tunnel Excavation 总被引:6,自引:2,他引:6
Summary. As underground development continues at great depths, the danger of rock bursts will inevitably increase. It is important
to consider countermeasures for avoiding rock bursts in underground work. In Japan, rock bursts have actually been experienced
during construction of several tunnels, including the Kan-etsu tunnel construction project, during which many rock bursts
were observed. Stress analysis of tunnels is performed based on initial stress measurements in the base rock. In addition,
AE measurement has been adopted in construction management, allowing safer excavation. Collective analysis of the data obtained
has been shown to be effective for safety control during excavation of hard base rock. In this research, initial stress measurements
in base rock, secondary stress analysis around a tunnel, and AE measurements are examined. Based on the results of this analysis,
it is clear that the generation of rock bursts is related to the presence of geological discontinuities. 相似文献