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万家寨引黄工程泥灰岩段隧洞岩石掘进机(TBM)卡机事故工程地质分析和事故处理 总被引:8,自引:1,他引:8
隧道全断面岩石掘进机 (TBM )的施工对地质条件适应性是一个不断认识和深化的过程 ,其中很多认识是来自已发生的各种各样事故和对事故原因的理性认识。本文是在对某隧洞TBM卡机地段的岩性 (包括工程性质 )、构造、地应力及其在TBM施工条件下的变化等方面进行工程地质力学研究的基础上 ,指出层间剪切带的存在及由此而产生的较大变形速率是导致事故发生的工程地质原因 ,并提出了相应的处理意见和建议。TBM卡机问题的顺利解决和它重新开始快速掘进证明了作者分析和工程处理措施的合理性。本文的分析有助于加深TBM施工对复杂地质条件适应性的认识 ,并可望为避免类似事故的再次发生提供参考和借鉴。 相似文献
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TBM掘进技术发展及有关工程地质问题分析和对策 总被引:12,自引:1,他引:11
通过对大量文献资料和工程实例的研究,论述了TBM(隧道掘进机)近半个世纪发展及其在隧道建设中的应用现状和问题。对大量国内外工程实例分析后发现优先采用TBM掘进技术已成为未来隧道建设总的发展趋势。从岩石力学和工程地质角度对岩石TBM掘进过程中遇到的诸如软岩大变形、突水、岩爆等不良工程地质问题导致卡机或管片变形、破损等工程事故进行了剖析,并对采用的工程处理措施作了总结对比。随着今后TBM掘进技术在我国大规模应用,对复杂工程地质条件的客观全面认识和施工方案的及时调整成为影响施工安全和经济效益的关键因素。 相似文献
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《岩土力学》2017,(Z2):295-303
隧道盾构掘进机(TBM)掘进时难以及时地、有效地评估掌子面岩石强度,导致现场施工过程中很难客观地判别岩爆、卡机等施工风险。在前人研究成果和工程实践的基础上,提出一种基于TBM掘进参数的现场岩石强度快速估算方法,对掌子面岩石强度进行实时评价。通过TBM规格、掘进参数与岩石强度的力学分析,建立了现场岩石强度快速估算公式。基于对国内外多条隧道TBM数据的统计拟合分析,确定了估算公式中系数常量与TBM参数(开挖直径、刀具尺寸)的相关性,以多个典型TBM工程实例进一步验证了所提经验公式的普适性与可靠性。研究结果可为TBM工程岩石强度的快速现场估算提供新的切实可行的思路。 相似文献
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基于AHP和模糊综合评判的TBM施工风险评估 总被引:7,自引:1,他引:6
岩石隧洞建设中面临很大和众多的风险,利用TBM施工的深埋长隧洞受多种不确定因素影响,具有随机性和模糊性,目前的研究方法难以对其进行准确定量分析。通过深入分析影响TBM施工的风险因素,建立了TBM施工风险综合评价指标体系。基于风险影响因素的层次性,提出了TBM施工风险二级模糊综合评判计算模型,并利用层次分析法(AHP)确定各级因素权重,利用模糊集法确定隶属函数,划分了风险接受等级。以南水北调西线工程深埋长隧洞TBM施工为例,应用二级模糊综合评判计算模型对该工程TBM施工风险进行分析,计算结果表明,该方法是合理性实用的。其理论、方法、思路和结论可供同类工程借鉴。 相似文献
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国内采用岩石隧道掘进机(简称TBM)施工的隧洞呈现深埋、超长趋势,变形引起的TBM卡机事故屡见不鲜,为了减少这些事故,可以预先对变形引起的TBM风险事故进行综合评价,因此,在单元风险研究的基础上对综合风险计算及评价准则进行研究。采用概率理论推导了变形引起的TBM风险事故的综合风险概率的计算模型,根据推导的模型可以近似计算出5类后果等级事故发生的概率;采用TBM的卡机时间与纯掘进时间的比值作为分级指标,结合以往TBM施工的统计数据划分工期损失后果等级,再结合风险的概率分级,建立变形综合风险评价准则;采用研究的理论,对工程选取段TBM施工卡机风险进行了两种工况下的计算分析。计算结果表明,施工时若不采取任何措施TBM施工风险比较大,但采用合理的措施之后风险可控制在可接受的范围内。 相似文献
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深埋长隧道TBM施工关键问题探讨 总被引:2,自引:0,他引:2
针对深埋长隧道开挖所面临的高水压、高地压、高地温、大变形、难支护等问题,分析总结传统钻爆法开挖与支护技术、全断面隧道掘进机(TBM)施工技术、TBM导洞扩挖技术应用中的优劣,TBM导洞扩挖法为深埋长隧道开挖提供了新的设计思路。由于深埋长隧道的建设环境与浅埋隧道建设环境存在显著差异,TBM施工将面临3个关键问题--岩爆问题、卡盾(大变形)问题和未准确探测前方地质而发生的施工事故(涌水、突泥等)。为揭示TBM施工过程中卡盾的存在性,分别针对某一特定地质条件下深埋软、硬岩TBM施工进行理论分析和数值模拟研究。结果表明,软岩地层TBM施工发生卡盾,而硬岩完整地层TBM施工未发生卡盾。 相似文献
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对煤矿长斜井盾构机(tunnel boring machine,TBM)施工的风险因素进行了识别,建立了二层次的风险评估指标体系,并确定了风险等级分类标准,利用熵权法确定风险指标的权向量,进而建立了基于集对分析法的煤矿长斜井TBM施工同异反评估模型。在此基础上利用偏联系数的理论确定了文中五元偏联系数的计算方法,根据改进的集对势理论给出风险趋势的预测方法。利用该模型对台格庙矿区煤矿长斜井(1#、2#实验井)TBM施工风险进行了评估与趋势预测。研究表明该模型与方法在煤矿长斜井TBM施工风险分析中是有效的、实用的,可为煤矿长斜井TBM施工风险分析与预测提供一种新的途径。 相似文献
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TBM施工隧洞围岩级别划分探讨 总被引:1,自引:0,他引:1
已有不少专家在TBM施工围岩级别划分方面进行过有益探索,为后来的工作提供了很好思路。目前的问题是,所提出的分级指标难以获取、离散性较大、有一些与施工直接相关的指标的定量化问题未能解决,尚未形成明显共识的分级系统或方法。为此,有必要针对水工隧洞TBM施工围岩类别划分进行详细探讨。本文提出以现行《水利水电工程地质勘察规范》中水工隧洞围岩分级方法为基础,参考秦岭隧道TBM施工围岩分级方法,根据TBM施工的工作效率、碴料特征和涌水状况进行分级修正,建立适合于TBM施工的水工隧洞围岩分级修正模型,实现TBM施工水工隧洞的围岩分级,并以2个实例进行验证。 相似文献
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为了验证高能激光技术能够辅助隧道掘进机(tunnel boring machine,简称TBM)盘形滚刀(以下简称滚刀)实现高效破岩,以滚刀破岩过程中基本的运动形式——侵岩为研究对象,参照17 inch(432 mm)工程用滚刀,按1:8的比例制备了缩尺比例滚刀压头(以下引述为滚刀压头),开展了以孔孔距(2、3、4、5 mm)、刀孔距(3、4、5、6、7 mm)为变量的激光辅助滚刀压头侵岩L20(4×5)正交试验以及无激光作用的对照组试验。试验研究结果表明:随着刀孔距的增加,滚刀压头的破岩量与岩石破碎块度均增加,而垂直力和比能耗均降低,最优刀孔距为6 mm;随着孔孔距的增加,破岩量、垂直力和岩石侵入难度系数均降低,而岩石破碎块度和比能耗均增加,最优孔孔距为3 mm。与传统滚刀回转滚压破岩方式相比,在激光辅助作用下,可促进岩石张拉裂纹的产生,提高了滚刀侵岩效率。所提出的激光辅助滚刀耦合破岩模式在未来TBM极硬岩层隧道掘进中具有一定的应用前景。 相似文献
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《Geomechanics and Geoengineering》2013,8(4):287-297
Nowsood water conveyance tunnel is 49 km long and has been designed for transferring 70 m3/s water from Sirvan river southward to Dashte Zahab plain in the west of Iran. This long tunnel has been divided into three sections, namely 1A, 1B and 2. By April 2008, about 5.3 km of the lot 2 of this project, with a total length of 26 km, were excavated by a double-shield TBM. The bored section of tunnel passed through different geological units of three main formations of the Zagross mountain ranges which mainly consist of weak to moderately strong argillaceous-carbonate rocks. This paper will offer an overview of the project, concentrating on the TBM operation, and review the results of the field performance of the machine. Also results of statistical analyses to evaluate correlation of TBM performance parameters with rock mass characteristics will be discussed. The results of machine performance analysis indicated that there are strong relationships between geomechanical parameters and TBM performance parameters in this particular project. In this research some empirical equations and a chart have been developed to estimate TBM performance parameters in similar cases based on common rock mass properties. 相似文献
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高压水射流的破岩效果对高压水射流辅助掘进机破岩技术至关重要。为提升隧道掘进机工况下高压水射流辅助破岩的效率,开展大线速度下超高压水射流破岩试验,分析喷嘴移动线速度、射流压力和喷嘴直径对破岩效果的影响规律,并探究加磨料和射流形式对破岩效果的影响。试验结果表明,随喷嘴移动线速度增加,高压水射流的切割深度和切割宽度均近似线性减小;随射流压力增加,切割深度近似线性增大,压力从200 MPa提高到280 MPa,切割深度增加了72%~82%;喷嘴直径从0.35 mm增大到0.60 mm,切割深度增加了60%~85%。大线速度下加磨料后射流变发散,加磨料的切割深度小于纯水的切割深度,加磨料的切割宽度大于纯水的切割宽度。砂管束流射流模式的能量利用率更高,砂管束流的切割深度比长线射流的切割深度大35%~42%,砂管束流的切割宽度比长线射流的切割宽度大78%~85%。基于Crow切割岩石理论,通过试验数据回归分析,得到大线速度下超高压水射流切割深度半理论半经验预测模型,可为高压水射流辅助掘进机破岩技术中射流切割参数优化提供参考依据。研究成果对提升隧道掘进机工况下超高压水射流辅助破岩的效率是很有意义的。 相似文献
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Pan Yucong Liu Quansheng Kong Xiaoxuan Liu Jianping Peng Xingxin Liu Qi 《Acta Geotechnica》2019,14(4):1249-1268
In this study, determination of some machine parameters and performance prediction for tunnel boring machine (TBM) are conducted based on laboratory rock cutting test. Firstly, laboratory full-scale linear cutting test is carried out using 432-mm CCS (constant cross section) disc cutter in Chongqing Sandstone. Then, the input parameters for TBM cutterhead design are extracted; some TBM specifications are determined and then compared to the manufactured values. Finally, laboratory full-scale linear cutting test results are compared with the field TBM excavation performance data collected in Chongqing Yangtze River Tunnel. Results show that laboratory full-scale linear cutting test results, combined with some engineering considerations, can be used for the preliminary and rough design of TBM machine capacity. Meanwhile, combined with some modification factors, it can also well predict the field TBM excavation performance.
相似文献17.
针对传统分类方法难以对围岩稳定性进行评价的问题,以护盾式全断面隧掘进机(TBM)施工隧洞的围岩稳定性评价为目标,在研究护盾式TBM施工特点的基础上,参照国内、外常用的围岩分类方法,选择了岩石的回弹值、刀盘推力、刀盘扭矩、片状岩渣含量、地下水渗流量和最大主应力与洞轴线的夹角作为围岩稳定性评判因素。采用模糊综合评判方法,建立围岩稳定性多因素评判模型,通过确定评判因素的权重向量选取隶属函数,进而对围岩稳定性进行定量评判,并将之应用到某工程双护盾TBM施工的围岩稳定性评判中。结果表明:序号1、2、3和4洞段对应的较稳定、较稳定、局部稳定性差和不稳定的最大隶属度分别为0.494、0.403、0.388、0.442,分别对应Ⅱ、Ⅱ、Ⅲ和Ⅳ类围岩;模糊综合评判方法合理,评判结果较为可靠。研究成果对护盾式TBM施工的围岩稳定性评价、围岩分类及支护方式选择等具有参考价值。 相似文献
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Various radiation defects were characterized and analyzed by electron paramagnetic resonance (EPR) in 15 feldspars of different compositions after X-ray irradiation. A hole center on oxygen adjacent to two aluminum ions is formed in most feldspars, except those with very high An content. Since the hole is not localized at room temperature, clusters of more than two Al must be present in all feldspars in amounts of at least 100 ppm. Less frequent radiation defects are trivalent titanium and holes on oxygen ions adjacent to a small divalent ion of a yet unidentified nature on a T site with Si and in some cases also Pb as further neighbors. The directions of the magnetic axes for these centers allowed their assignment to specific sites in the feldspar structure. Characteristic absorption and thermolu-minescence emission bands could also be assigned to these centers. Their properties are remarkably independent of composition and Al, Si disorder of the feldspars. 相似文献
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Mechanical response of surrounding rock of tunnels constructed with the TBM and drill-blasting method 总被引:1,自引:0,他引:1
There are two kinds of excavation methods in underground engineering: the tunnel boring machine (TBM) and the drill-blasting method. A large number of studies have shown that the deformation and failure, the degree of disturbance, the stability and the reinforcement measures of surrounding rock using the TBM and drill-blasting method vary from each other. To accurately master these macroscopic damages, it is necessary to focus on the investigation of the micro-mechanical responses of the surrounding rock. Scanning electron microscopy tests, acoustic emission tests and tunnel acoustic detection tests were carried out to analyze the mechanical response of surrounding rock of tunnels, which were excavated in marble by, respectively, the TBM and the drill-blasting method. The tests results showed that most of the rock fractures cut by TBM is wipe along the crystal, and the failure mechanism is mainly cutting, while most of the rock fractures induced by the TBM coincide with crystal planes, its mechanism is mainly tensile. The stress–strain curves of rocks cut by the TBM method are rather flat around the peak strength, which means a strong resistance to deformation around the peak load. The response of AE for the rock cut by the TBM method appears after larger strains than the response of the rock constructed by the drill-blasting method. This suggests that the resistance to damage is higher under TBM excavation conditions. The relaxation depths of the tunnel excavated by the drill-blasting method are larger than the tunnel excavated by the TBM method. The research can provide more insight into tunnel failure mechanisms and provide a framework for reinforcement measures. 相似文献
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Ebrahim Farrokh Jamal Rostami Chris Laughton 《Rock Mechanics and Rock Engineering》2011,44(4):431-445
Estimation of advance rate and utilization of tunnel boring machines (TBM) are some of the important steps in planning a TBM
tunneling project. Estimation of the utilization factor depends on realistic analysis of downtime components. Among the different
parameters influencing TBM downtime, tunnel support is the most influential factor, which can take up to 50% of the total
excavation time in some cases. Although, there are some rock mass classification systems specifically developed to link ground
conditions with the type and amount of support installed in TBM tunneling, the related downtime for support installation has
not been studied in detail. Unit supporting time (UST) is the time required for the installation of ground support per unit
length of tunnel. Support installation time (SIT) is the time required for installation of a single ground support element.
In this paper, approximate ranges of UST and SIT are discussed and analyzed on the basis of recorded ground SIT from a number
of TBM tunneling projects. The primary goal of this paper is to link UST with rock mass classifications that have been specifically
developed to assess ground support requirements for different tunnel sections using open-type TBM. An accurate estimate of
UST and SIT allows for realistic determination of the related downtime and TBM utilization rate. 相似文献