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《交通运输工程学报》[ISSN:1671-1637/CN:61-1369/U]

Issue:

2018年04期

Page:

63-71

Research Field:

道路与铁道工程

Publishing date:

Info

Title:

Settlement control standard of existing metro line undercrossed by new metro tunnel in loess area

Author(s):

LAI Hong-peng¹;  ZHAO Xin¹;  KANG Zuo²

1. School of Highway, Chang'an University, Xi'an 710064, Shaanxi, China; 2. Xi'an Metro Co., Ltd., Xi'an 710018, Shaanxi, China

Keywords:

tunnel engineering;  subway undercrossing;  settlement control standard;  safety judgment criteria;  mechanical model;  early warning system;  security level

PACS:

U459.3

DOI:

-

Abstract:

Based on the actual condition of metro line 5 undercrossing metro line 2 at close range in Xi'an, China, the safety judgment criteria, normal-use requirement and service status of existing metroline undercrossed by new metro tunnel in the loess area were analyzed, the bending moment, radius of curvature, allowable stress, allowable shear strain and track deformation were taken as the control factors of the settlement of existing metro line, the mechanical model of existing metro line was constructed, the settlement computation formula was deduced, and the settlement control standard was determined. Analysis result shows the corresponding allowable settlements of the existing metro line are 22.40, 20.85, 48.14, 20.23 and 21.06 mm under the control factors of bending moment, radius of curvature, allowable stress, allowable shear strain and track deformation, respectively, and the empirical allowable settlements of other regional undercrossing projects and the standard allowable settlements of relevant domestic regulations are 20 mm. The most unfavorable control factor is the track deformation, and the corresponding allowable settlement is close to the existing relevant allowable settlements, so, it is suggested that the settlement control standard is 20 mm for the existing metro line undercrossed by new metro tunnel in the loess area. The level-to-level administration of settlement control standard of existing metro line is performed, the 100%, 80% and 60% of the settlement control standard are taken as thecontrol value(20 mm), alarm value(16 mm)and warning value(12 mm), respectively, and an early warning system of undercrossed existing metro line is proposed. The safety level of existing metro line undercrossed by new metro line is evaluated, and the corresponding treatment measures are given. When the safety level is Class Ⅰ and the corresponding settlement is no more than 12 mm, the new metro tunnel should be normally constructed and monitored. When the safety level is Class Ⅱ and the corresponding settlement is(12,16] mm, strengthening monitoring and real-time feedback should be carried out. When the safety level is Class Ⅲ and the corresponding settlement is(16,20] mm, the construction should be stopped and the emergency plan should be started. The safety level is Class Ⅳ and the corresponding settlement is more than 20 mm, the damage level has reached and the construction is never allowed. 8 tabs, 8 figs, 30 refs.

References:

[1] LUNARDI P, CASSANI G. Construction of an underpass at the Ravone railway yard in the city of Bologna: aspects of the design and construction[C]∥TEUSCHER P, COLOMBO A. Progress in Tunneling after 2000(Ⅲ). Bologna: Patron Editore, 2001: 319-328.
[2] 王道远,袁金秀,赵维普,等.下穿既有客运专线浅埋大跨双连拱隧道施工技术研究[J].昆明理工大学学报:理工版,2010,35(6):50-55. WANG Dao-yuan, YUAN Jin-xiu, ZHAO Wei-pu, et al. Research on construction technology of shallow and large-span double-arch tunnel crossing under the existing passenger railway line[J]. Journal of Kunming University of Science and Technology: Science and Technology, 2010, 35(6): 50-55.(in Chinese)
[3] 袁金秀,王道远,李 栋.北京地铁6号线下穿既有4号线区间盾构隧道施工技术[J].城市轨道交通研究,2012,15(3):82-85. YUAN Jin-xiu, WANG Dao-yuan, LI Dong. Construction technology of Beijing Subway Line 6 under the existing shield tunnel of Line 4[J]. Urban Mass Transit, 2012, 15(3): 82-85.(in Chinese)
[4] 冯卫星,王道远,丁军霞.下穿高速公路结构顶进施工方案和数值分析[J].国防交通工程与技术,2010(2):31-35. FENG Wei-xing, WANG Dao-yuan, DING Jun-xia. Construction scheme for and corresponding numerical analysis of thrusting the large-size frame structure under the expressway[J]. Traffic Engineering and Technology for National Defence, 2010(2): 31-35.(in Chinese)
[5] 朱正国,黄 松,朱永全.铁路隧道下穿公路引起的路面沉降规律和控制标准研究[J].岩土力学,2012,33(2):558-563,576. ZHU Zheng-guo, HUANG Song, ZHU Yong-quan. Study of road surface settlement rule and controlled criterion for railway tunnel undercrossing highway[J]. Rock and Soil Mechanics, 2012, 33(2): 558-563, 576.(in Chinese)
[6] 张晓丽.浅埋暗挖下穿既有地铁构筑物关键技术研究与实践[D].北京:北京交通大学,2007. ZHANG Xiao-li. Research on the key technology and experience of shallow tunnelling method crossing under the existing subway tunnel[D]. Beijing: Beijing Jiaotong University, 2007.(in Chinese)
[7] 陈孟乔,杨广武.新建地铁车站近距离穿越既有地铁隧道的变形控制[J].中国铁道科学,2011,32(4):53-59. CHEN Meng-qiao, YANG Guang-wu. Deformation control of a newly-built subway station crossing the adjacent existing subway tunnel[J]. China Railway Science, 2011, 32(4): 53-59.(in Chinese)
[8] 白海卫.新建隧道下穿施工对既有隧道纵向变形的影响和工程措施研究[D].北京:北京交通大学,2007. BAI Hai-wei. Study on longitudinal deformation of existing metro tunnel caused by undercrossing construction and engineering measures[D]. Beijing: Beijing Jiaotong University, 2007.(in Chinese)
[9] 杨广武.地下工程穿越既有地铁线路变形控制标准和技术研究[D].北京:北京交通大学,2010. YANG Guang-wu. Study on the permissible value and technique for deformation controlling of underground construction crossing existing metro line[D]. Beijing: Beijing Jiaotong University, 2010.(in Chinese)
[10] 王子甲.双线暗涵近距离下穿既有地铁车站的影响及变形控制研究[D].北京:北京交通大学,2009. WANG Zi-jia. Research on the effection and deformation control of double-line tunnel undercrossing exist subway station[D]. Beijing: Beijing Jiaotong University, 2009.(in Chinese)
[11] 刘国彬,李志高,吴小将.明珠线二期施工对环境影响的三维有限元分析[J].地下空间与工程学报,2005,1(3):460-463. LIU Guo-bin, LI Zhi-gao, WU Xiao-jiang. 3D FEM analysis on surroundings influence due to the construction of transverse section for Shanghai Stadium Station of Pearl Line Phase Ⅱ[J]. Chinese Journal of Underground Space and Engineering, 2005, 1(3): 460-463.(in Chinese)
[12] 李兴高.既有地铁线路变形控制标准研究[J].铁道建筑,2010(4):84-88. LI Xing-gao. Study on deformation controlling standards under existing metro structures[J]. Railway Engineering, 2010(4): 84-88.(in Chinese)
[13] 李 宁,顾强康,朱才辉,等.西安地铁二号线下穿古城墙段地表沉降控制标准研究[J].岩石力学与工程学报,2009,28(增2):3753-3761. LI Ning, GU Qiang-kang, ZHU Cai-hui, et al. Research on ground sedimentation criterion of Xi'an Line-2 Subway under circumvallation[J]. Chinese Journal of Rock Mechanics and Engineering, 2009, 28(S2): 3753-3761.(in Chinese)
[14] 姚宣德,王梦恕.地铁浅埋暗挖法施工引起的地表沉降控制标准的统计分析[J].岩石力学与工程学报,2006,25(10):2030-2035. YAO Xuan-de, WANG Meng-shu. Statistic analysis of guideposts for ground settlement induced by shallow tunnel construction[J]. Chinese Journal of Rock Mechanics and Engineering, 2006, 25(10): 2030-2035.(in Chinese)
[15] 朱正国,贾晓云,李文江,等.暗渠下穿高速公路施工过程的数值模拟及工程应用[J].岩土力学,2009,30(6):1831-1836. ZHU Zheng-guo, JIA Xiao-yun, LI Wen-jiang, et al. Numerical simulation and application of construction process of underdrain beneath expressway[J]. Rock and Soil Mechanics, 2009, 30(6): 1831-1836.(in Chinese)
[16] 易小明,张顶立.浅埋大跨隧道下穿建筑物时的变形制标准[J].都市快轨交通,2008,21(6):46-50. YI Xiao-ming, ZHANG Ding-li. Study on deformation control criteria for a shallow large span tunnel under-passing building blocks[J]. Urban Rapid Rail Transit, 2008, 21(6): 46-50.(in Chinese)
[17] 周正峰,凌建明.机场水泥混凝土道面土基强度和变形标准分析[J].同济大学学报:自然科学版,2008,36(11):1516-1520. ZHOU Zheng-feng, LING Jian-ming. Study on criteria for subgrade strength and deformation of airport concrete pavement[J]. Journal of Tongji University: Natural Science, 2008, 36(11): 1516-1520.(in Chinese)
[18] 赵 鑫.土质地层新建地铁隧道下穿既有线地层沉降计算方法与控制标准研究[D].西安:长安大学,2016. ZHAO Xin. Research on calculation method and control standard of stratum subsidence of newly-built subway tunnel passing underneath existing tunnel line in soil area[D]. Xi'an: Chang'an University, 2016.(in Chinese)
[19] 李文江,刘志春,朱永全.铁路站场下暗挖隧道地表沉降控制基准研究[J].岩土力学,2005,26(7):1165-1169. LI Wen-jiang, LIU Zhi-chun, ZHU Yong-quan. Ground surface settlement control norm for tunneling under railway station region in soft soil[J]. Rock and Soil Mechanics, 2005, 26(7): 1165-1169.(in Chinese)
[20] 汪 波,杨 意,何 川,等.破碎千枚岩隧道施工期位移安全控制基准研究[J].岩石力学与工程学报,2016,35(11):2287-2297. WANG Bo, YANG Yi, HE Chuan, et al. Safety control criteria of displacement during construction of broken phyllite tunnels[J]. Chinese Journal of Rock Mechanics and Engineering, 2016, 35(11): 2287-2297.(in Chinese)
[21] 李文江,刘志春,朱永全.建筑群下软～流塑地层隧道施工地表沉降控制分析[J].铁道标准设计,2005(6):84-86,110. LI Wen-jiang, LIU Zhi-chun, ZHU Yong-quan. The analysis on ground surface settlement control of subway tunneling under buildings region in soft-flow plasticity strata[J]. Railway Standard Design, 2005(6): 84-86, 110.(in Chinese)
[22] LAI Hong-peng, ZHAO Xin, KANG Zuo, et al. A new method for predicting ground settlement caused by twin-tunneling under-crossing an existing tunnel[J]. Environmental Earth Sciences, 2017, 76(21): 726-1-12.
[23] PARK K H. Elastic solution for tunneling-induced ground movements in clays[J]. International Journal of Geomechanics, 2004, 4(4): 310-318.
[24] OCAK I. Control of surface settlements with umbrella arch method in second stage excavations of Istanbul Metro[J]. Tunnel Underground Space Technology, 2008, 23(6): 674-681.
[25] 沈良帅,贺少辉.复杂环境条件上跨下穿同一既有地铁隧道的变形控制分析及施工方案优化[J].岩石力学与工程学报,2008,27(增1):2893-2900. SHEN Liang-shuai, HE Shao-hui. Subsidence controlling and construction scheme optimization of cutting across and underpassing an existing metro tunnel under complex environmental conditions[J]. Chinese Journal of Rock Mechanics and Engineering, 2008, 27(S1): 2893-2900.(in Chinese)
[26] 黄宏伟.隧道及地下工程建设中的风险管理研究进展[J].地下空间及工程学报,2006,2(1):13-20. HUANG Hong-wei. State-of-the-art of the research on risk management in construction of tunnel and underground works[J]. Chinese Journal of Underground Space and Engineering, 2006, 2(1): 13-20.(in Chinese)
[27] 娄国充.铁路隧道下穿既有路基沉降规律及控制标准研究[D].北京:北京交通大学,2012. LOU Guo-chong. Study on the settlement and controlling criteria of existing embankment during railway tunnel construction underpassing by conventional method[D]. Beijing: Beijing Jiaotong University, 2012.(in Chinese)
[28] 魏 纲,徐日庆.软土隧道盾构法施工引起的纵向地面变形预测[J].岩土工程学报,2005,27(9):1077-1081. WEI Gang, XU Ri-qing. Prediction of longitudinal ground deformation due to tunnel construction with shield in soft soil[J]. Chinese Journal of Geotechnical Engineering, 2005, 27(9): 1077-1081.(in Chinese)
[29] LAI Hong-peng, SONG Wei-long, LIU Yu-yang, et al. Influence of flooded loessial overburden on the tunnel lining: case study[J]. Journal of Performance of Constructed Facilities, 2017, 31(6): 1-11.
[30] LIU Yu-yang, LAI Hong-peng, XIE Yong-li, et al. Cracks analysis of highway tunnel lining in flooded loess[J]. Proceedings of the Institution of Civil Engineers: Geotechnical Engineering, 2017, 170(1): 62-72.

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Memo:

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Common functions

Last Update: 2018-08-30