天津地铁6号线双线平行盾构隧道施工间隔对地表土体变形影响研究

研究双线盾构隧道在不同施工间隔下施工时地表的变形规律,对控制地表整体变形及不均匀变形十分重要。依托天津地铁6号线双线盾构隧道下穿天津西站站场实际工程实例,以铁路线设施的关键变形控制指标为评判依据,研究盾构左右线不同施工间隔下的地表变形分布特性,对比分析间隔距离与地表沉降和不均匀沉降的关系,为双线盾构隧道工程选择合适的施工间隔提供依据,以保证工程安全及地表铁路设施的正常运行。结果表明,不同施工间隔的影响主要表现为掘进过程对地表土体变形的扰动程度及扰动范围的明显差异:对于地表沉降变形而言,施工间隔越小,掌子面处地表土体沉降越快,且左线完全先行时,地表土体的纵向变形范围约为20 m,相较两洞同时施工时变形范围减小约25 m;对于地表不均匀变形而言,左线完全先行施工条件下,地表轨向变形、水平变形、轨距变形最大分别约为1、0.6、0.2 mm,相较两洞同时施工时分别减小0.8、0.2、0.15 mm。因此,对于双线盾构隧道而言,两洞同时施工时最不利于地表变形的控制,而一条隧道完全先行掘进的方案最有利于地表变形的控制。     

有、无柱地铁地下车站地震响应对比分析

为了解有柱与无柱地铁地下车站结构地震响应特性的异同,采用ABAQUS软件对2种地铁车站结构进行了水平向的非线性地震响应数值模拟,对比分析了在3种地震波不同峰值加速度作用下2种结构的响应特性。结果表明:1)2种车站结构的地震响应规律基本相似,在强震作用下均会受到严重的损伤,除侧墙与顶底板的连接处外,有柱车站的中柱与无柱车站的底板均为抗震的薄弱点,应注重加强其抗震性能;2)顶底板间最大的相对水平位移与输入波峰值加速度近似呈线性增大关系,且与波的频谱特性密切相关;3)在地震作用过程中产生的单向累积残余变形沿侧墙高度的变化曲线呈波浪状,最终摆向与最大摆幅的摆向一致;4)2种车站结构的加速度时程曲线形状相似,且相对基岩输入波有明显的放大。     

TBM拆卸洞及拆机起重系统优化设计研究

TBM洞内拆机一般是在隧道内修建大断面拆卸洞,安装桥式起重机拆机。大断面拆卸洞施工难度较大,施工工期长,成本投入大。为了缩短TBM拆卸洞施工及拆机时间,减小施工难度,以南疆铁路吐库二线中天山隧道TBM拆机为例,研究设计适应性更好的小车式电动葫芦+倒链起重系统。该系统采取在隧道拱顶布设锚杆来固定导轨和独立吊点。通过对拆卸洞结构原设计方案与优化设计方案进行比选,确定优化断面的结构形式和断面尺寸,优化后拆卸洞断面缩小1/3,施工难度降低,达到安全快速拆卸TBM的目的。     

本刊副理事长招商局集团有限公司总裁傅育宁博士

招商局创立于1872年12月26日，1873年1月17日在上海正式开业，是中国民族工商业的先驱，被誉为“中国民族企业百年历程缩影”。招商局现为国家驻港大型企业集团、香港四大中资企业之一，总部设于香港。主要经营活动分布于香港、内地、东南亚等地区。     

Analysis of Adaptability of TBM in Trial Boring Stage of Super long Tunnel（超特长隧洞TBM集群试掘进阶段适应性分析）

The total length of the 2nd stage water transfer project in the northern area of Xinjiang of China is 540 km. The project consists of three tunnels, namely Xi Er (XE) Tunnel, Ka Shuang (KS) Tunnel and Shuang San (SS)〖HJ6.5mm〗 Tunnel, with lengths of 139.04 km, 283.27 km and 92.15 km respectively. All of these three tunnels have deep cover and are super long tunnels, and 95.6% of the total length of these three tunnels is constructed by TBMs. KS Tunnel is the longest water tunnel built or under construction in the world. In the paper, the trial TBM boring scheme and schedule of the water transfer project are introduced; the geological conditions revealed are statistically analyzed; and main project difficulties, i.e. durability of key equipment in long distance driving, passing through fault and fracture zones, water inrush, single head ventilation and transportation in long distance tunneling, anti slope drainage, and rock breaking efficiency and boring efficiency, are put forward. The adaptability of the TBMs used is analyzed from the aspects of adaptability to different surrounding rocks, adaptability to bad geological conditions and countermeasures, long distance ventilation and belt conveyor mucking and countermeasures, and TBM boring stability (such as equipment availability, boring time proportion, system malfunction and operation time). The following conclusions are obtained: (1) Accurate geological survey is the precondition of efficient tunneling. (2) The open type TBM can better adapt to Grade Ⅱ and Ⅲ of surrounding rocks, jointed and fractured zones and small faults; the adaptability of the TBMs used to the large scale fault fracture zones and water rich strata in this project is poor, and it needs to be improved in aspects of TBM equipment, supporting and construction technology. (3) The average availability of the TBM equipment in the trial boring stage is 89.9%, however, the malfunction rate of some ancillary equipment is high, particularly oil leakages occur to the main bearing seals; in order to achieve long distance tunneling, it is necessary to further improve the reliability and durability of the TBM equipment. (4) The average net boring efficiency in the trial boring stage is 296%, and TBM1 in Section Ⅱ of SS Tunnel achieves up to 45.2 % net boring efficiency; and highest monthly progress rate is 1 280 m, which created the highest record of the open type TBM boring in China. (5) TBM need to make great efforts to achieve 90% of the equipment system′s availability and over 40% of the tunneling efficiency.     

金家庄特长螺旋隧道施工通风方案优化分析

为加快长大隧道施工进度，多采用开挖斜井增加工作面，而多工作面同时施工时，通风成为影响掘进速度的重要因素。以金家庄螺旋隧道斜井工区工程为依托，针对左线现有压入式通风方案工作面风量较小、通风效果较差的问题，提出风仓式通风方案。采用三维数值模型对2种方案的“风机-风管-隧道”系统进行计算分析，并将数值计算所得测点风速与现测数据进行校验。计算结果表明： 1）现有压入式通风，风管供风量和洞内风速均不能满足隧道施工通风要求； 2）采用风仓式通风方案后，能较好地控制工作面风管出口风量，使各工作面风量满足要求； 3）风仓式通风具有灵活性，可随着隧道开挖进尺的增加，调节风仓内风机，控制工作面风量； 4）风仓式通风能减少风管长度和转角，从而减少漏风量和风压损失，较好地为工作面提供风量。本文研究成果可为类似工程提供参考，具有实际工程意义。     

基于系列模型试验的波流共同作用下单桩冲刷及防护措施研究

冲刷问题是导致海洋环境中桩基础损毁的重要因素之一,极细沙在波流环境下具有"易冲易淤"的特点,以往针对极细沙底床的基础冲刷研究比较少见,采用系列模型试验的方法,针对极细沙海床在波流共同作用下的桩基础冲刷深度及防护措施效果展开研究,并将试验结果与前人经验公式计算结果进行比较.研究结果表明:波流作用下冲刷坑由圆桩两侧向桩前后...     

“桑吉”轮失事 中国大救援!

正2018年,新年伊始,发生在1月6日晚间的东海海域撞船事故牵动了无数人的心。事故发生后,交通运输部高度重视,立即成立应急工作小组,全面开展人员搜救、船舶灭火、清污等工作。此次救援事件,本社也派出了记者赶赴一线进行采访,本刊现将前方记者发回的消息和有关资料进行整理报道,以供读者了解相关情况。     

Key Rock Mechanics Problems and Countermeasures on Huge Diversion Tunnel of Baihetan Hydropower Station（白鹤滩水电站巨型导流洞关键岩石力学问题与对策）

The large scale diversion tunnel of Baihetan Hydropower Station has complex geological conditions, thus various problems of rock mechanics appeared during the process of excavation. Typical damage and fracture mechanics are analyzed in depth, including the collapse along weak rock joint, stress controlled spalling, failure modes of fractured rock mass, relaxation damage of fractured rock columnar joints, localized stress affected by structural surfaces and stress controlled problems of superior fracture combinations. Engineering countermeasures are also summarised, which includes supporting measures, construction methods, supporting time, and monitoring and feedback methods for different types of failure. Through these measures, rock mechanics problems are successfully solved. Stability control of the surrounding rock of underground caverns under complicated geological conditions are achieved, ensuring successful completion of the enormous diversion tunnel of Baihetan. 