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【目的】广州北江引水4~#隧洞长10.2 km,开挖洞径4.5 m, TBM掘进过程中存在断层破碎带多、花岗岩单轴抗压强度高和TBM掘进效率低三大关键技术难题。【方法】为了解决以上难题,从地层适应性、空间利用率、造价和安全性等方面进行了TBM选型分析,并结合工程实例验证新型敞开式TBM应用效果。【结果】新型敞开式TBM优势包括:(1)新型敞开式TBM由护盾式主机和滑车结构组成,采用敞开式施工工法,护盾相较于常规双护盾TBM更短,最小转弯半径为75 m;(2)提出法向锚杆钻机方案,实现隧洞径向220°钻孔作业;(3)设置应急喷混系统,确保围岩脱离尾盾后尽早进行喷混;(4)刀盘镶嵌耐磨合金,合理减小刀具间距,提高掘进推力和破岩能力;(5)优化出渣系统、支护系统、铺轨、通风除尘等设备空间布置。【结论】结果表明:新型敞开式TBM平均月施工进尺400 m以上,穿越断层破碎带隧洞收敛变形控制在3 mm以内,硬岩段刀具磨损控制效果良好。通过与类似工程对比验证了新型敞开式TBM具备地层适应性强、施工效率高等优势。
Abstract:[Objective]Guangzhou Beijiang Water diversion 4~# tunnel has a length of 10.2 km and a diameter of 4.5 m. There are three key technical problems in the TBM excavation process: more fault crushing zones, high uniaxial compressive strength of granite and low TBM excavation efficiency.[Methods]In order to solve the above problems, this paper analyzes the selection of TBM from the aspects of formation adaptability, space utilization, cost and safety, and verifies the application effect of the new open TBM based on engineering examples.[Results]The advantage of the new open TBM is that:(1) The new type of open TBM consists of a shield-type host and a pulley structure, and adopts an open construction method. The shield is shorter than the conventional double-shield TBM, and the minimum turning radius is 75 m.(2) Propose a normal bolt drilling rig plan to realize the radial 220° drilling operation of the tunnel.(3) Set up an emergency spray mixing system to ensure that the surrounding rock is sprayed and mixed as soon as possible after it is separated from the tail shield.(4) The tool tray is inlaid with wear-resistant alloys to reasonably reduce the tool spacing and improve the thrust and rock-breaking ability of the excavation.(5) Optimize the space layout of the slag discharge system, support system, rail laying, ventilation and dust removal equipment.[Conclusion]The result show that the average monthly construction intake of the new type of open TBM is more than 400 m, the convergence deformation of the tunnel through the fault fracture zone is controlled within 3 mm, and the tool wear control effect of the hard rock section is good. Through comparison with similar projects, it is verified that the new type of open TBM has the advantages of strong stratigraphic adaptability and high efficiency.
[1] 布朗雄 D,周静贤.莱索托高原引水工程[J].水利水电快报,2004(6):21-22.BROWN D,ZHOU Jingxian.Lesotho plateau water diversion project[J].Express Water Resources and Hydropower Information,2004(6):21-22.
[2] 尹俊涛,尚彦军,傅冰骏,等.TBM 掘进技术发展及有关工程地质问题分析和对策[J].工程地质学报,2005,13(3):389-397.YIN Juntao,SHANG Yanjun,FU Bingjun,et al.Development of TBM-Excavation Technology and analyses and countermeasures of related engineering geological problems[J].Journal of Engineering Geology,2005,13(3):389-397.
[3] 巩江峰,唐国荣,王伟,等.截至2021年底中国铁路隧道情况统计及高黎贡山隧道设计施工概况[J].隧道建设(中英文),2022,42(3):508-517.GONG Jiangfeng,TANG Guorong,WANG Wei,et al.Statistics of China′s railway tunnels by the end of 2021 and design & construction overview of Gaoligongshan Tunnel[J].Tunnel Construction,2022,42(3):508-517.
[4] 张军伟,梅志荣,高菊茹,等.大伙房输水工程特长隧洞TBM选型及施工关键技术研究[J].现代隧道技术,2010,47(5):1-10.ZHANG Junwei,MEI Zhirong,GAO Juru,et al.Study on TBM type-selection and key technologies in Dahuofang Water Diversion Tunnel[J].Modern Tunnelling Technology,2010,47(5):1-10.
[5] 刁振兴,薛亚东,王建伟.引汉济渭工程岭北隧洞TBM利用率分析[J].隧道建设,2015,35(12):1361-1368.DIAO Zhenxing,XUE Yadong,WANG Jianwei.Analysis on TBM availability in construction of lingbei tunnel of Hanjiang River-Weihe River Water Conveyance Project[J].Tunnel Construction,2015,35(12):1361-1368.
[6] 宋天田,刘川昆,陈凡,等.地铁区间隧道盾构/TBM双模选型适应性研究[J].铁道工程学报,2022,39(1):107-113.SONG Tiantian,LIU Chuankun,CHEN Fan,et al.Research on the selection and tunneling adaptability of dual-mode shield/TBM in Metro Tunnel[J].Journal of Railway Engineering Society,2022,39(1):107-113.
[7] 张新伟.千岛湖配水工程TBM选型及设备关键技术研究[J].隧道建设(中英文),2021,41(S2):612-619.ZHANG Xinwei.TBM Selection and key technologies of Qiandao Lake Water Distribution Project[J].Tunnel Construction,2021,41(S2):612-619.
[8] 詹金武,李涛,黄建华,等.基于案例推理的TBM选型适应性评价系统开发及应用[J].铁道科学与工程学报,2020,17(6):1562-1570.ZHAN Jinwu,LI Tao,HUANG Jianhua,et al.Development and application of adaptive evaluation system for TBM selection based on case-based reasoning[J].Journal of Railway Science and Engineering,2020,17(6):1562-1570.
[9] SHAHRIAR K,SHARIFZADEH M,HAMIDI J K.Geotechnical risk assessment based approach for rock TBM selection in difficult ground conditions[J].Tunnelling and Underground Space Technology,2008,23(3):318-325.
[10] 王荣幸,陈超,肖伟.EPC模式下水利工程施工管理[J].水利发展研究,2021,21(2):59-62.WANG Rongrong,CHEN Chao,XIAO Wei.Construction management of water conservancy projects under EPC mode [J].Water Resources Development Research,2021,21(2):59-62.
[11] ATES U,BILGIN N,COPUR H.Estimating torque,thrust and other design parameters of different type TBMs with some criticism to TBMs used in Turkish tunneling projects[J].Tunnelling and Underground Space Technology Incorporating Trenchless Technology Research,2014,40(2):46-63.
[12] TAN Z,LAI H,LI Z,et al.Research on the tunnel boring machine selection decision-making model based on the fuzzy evaluation method[J].Applied Sciences-Basel,2022,12(21):10802.
[13] MARINOS V,STOUMPOS G,PAPOULI D,et al.Selection of TBM and geotechnical assessment of a microtunnel in a difficult geological environment:a case of a natural gas pipeline beneath an active landslide (Albania)[J].Bulletin of Engineering Geology and the Environment,2019,78(3):1795-1813.
[14] XU Z,WANG W,LIN P,et al.Hard-rock TBM jamming subject to adverse geological conditions:Influencing factor,hazard mode and a case study of Gaoligongshan Tunnel[J].Tunnelling and Underground Space Technology,2021,108:103683.
[15] 严振林.小曲线TBM隧道出渣用调车平转桥研究及设计[J].铁道建筑技术,2022,353(8):76-80.YAN Zhenlin.Research and design of shunting swing bridge for slag discharge in small curve TBM tunnel[J].Railway Construction Technology,2022,353(8):76-80.
[16] 党建涛,刘福生,王红霞,等.引汉济渭工程秦岭隧洞TBM的刀具选型试验[J].水利水电技术,2017,48(12):63-69.DANG Jiantao,LIU Fusheng,WANG Hongxia,et al.Experiment on selection of TBM cutter for construction of Qinling Tunnel for Hanjiang-to-Weihe River Valley Water Diversion Project[J].Water Resources and Hydropower Engineering,2017,48(12):63-69.
[17] 龙斌,刘志华,肖京.川藏铁路隧道复杂恶劣工况条件下的TBM适应性设计探讨[J].隧道建设(中英文),2021,41(S2):626-633.LONG Bi,LIU Zhihua,XIAO Jing.Adaptive design of tunnel boring machine used in Sichuan-Tibet Railway Tunnel under complex and severe conditions[J].Tunnel Construction,2021,41(S2):626-633.
[18] 张洪伟,胡兆锋,程敬义,等.深部高温矿井大断面岩巷TBM智能掘进技术:以“新矿1号”TBM为例[J].煤炭学报,2021,46(7):2174-2185.ZHANG Hongwei,HU Zhaofeng,CHENG Jingyi.TBM techniques for intelligent excavating large-section rock roadway in the deep high-temperature coal mines:Application of TBM in Xinkuang No.1 [J].Journal of China Coal Society,2021,46(7):2174-2185.
[19] 聂晓东,胡军,聂诗武,等.模糊偏好的TBM刀盘溜碴结构设计[J].中国工程机械学报,2018,16(5):421-426.NIE Xiaodong,HU Jun,NIE Shiwu,et al.Optimization method for structural design of mucking plate [J].Chinese Journal of Construction Machinery,2018,16(5):421-426.
[20] 杜立杰.中国TBM施工技术进展、挑战及对策[J].隧道建设,2017,37(9):1063-1075.DU Lijie.Progresses,challenges and countermeasures for TBM Construction Technology in China[J].Tunnel Construction,2017,37(9):1063-1075.
[21] 周建军,翟乾智,马利,等.刮渣斗与紧邻滚刀夹角对滚刀磨损影响研究[J].隧道建设(中英文),2021,41(3):349-355.ZHOU Jianjun,ZHAI Qianzhi,MA Liming,et al.Effect of angle between mucking slot and adjacent disc cutter on disc cutter wear law[J].Tunnel Construction,2021,41(3):349-355.
基本信息:
DOI:10.13928/j.cnki.wrahe.2023.09.012
中图分类号:TV554;TV53
引用信息:
[1]杜传奇,邢鹏,安龙飞,等.新型敞开式小直径TBM装备选型及应用[J],2023,54(09):137-147.DOI:10.13928/j.cnki.wrahe.2023.09.012.
基金信息:
国家自然科学基金项目(52022112)
2022-12-27
2022
2023-08-09
2023
2