• Title/Summary/Keyword: Shielded TBM

Search Result 6, Processing Time 0.024 seconds

Relationship Between Net Penetration Rate and Thrust of Shielded TBM in Hard Rock (암반층에서 Shield TBM의 굴착속도와 추력과의 관계)

  • Park, Chul-Hwan;Park, Chan;Jeon, Yang-Soo;Park, Yeon-Jun
    • Tunnel and Underground Space
    • /
    • v.12 no.2
    • /
    • pp.115-119
    • /
    • 2002
  • Four tunnels have been planned to operate a large diameter shielded TBM in Gwangju urban subway construction site. No.1 tunnel has completely been excavated for 13 months operating. Net penetration rate and its relations with thrust farce of the shielded TBM are analysis in this report. This shallow depth tunnel of 536m length is located in soil layers at launching and in hard rocks at ending with 84 m length. The weekly net penetration rates haute dropped down as low as 20∼110 mm/hr in rock while 400∼800 mm/hr in soil. The actual penetration rates we proved to be high as the theoretical penetration rate which is analysis in consideration of conditions of machine and rock. And net penetration rate is investigated to increase linearly thrust force.

Boulder Detection Methods and its Compensation for Obstruction in sonft Ground Tunnels by Shielded TBM (연약지반 쉴드 터널 굴착시 전석장애물 탐지방법 및 보상문제)

  • Jee Warren-Wangryul;Ha Sang-Gui
    • Journal of the Korean Society for Railway
    • /
    • v.9 no.1 s.32
    • /
    • pp.110-117
    • /
    • 2006
  • Boulder detection methods and its compensation is discussed with consideration of boulder conditions in soft ground tunneling by shielded TBM. For analysis of proper compensation methods for boulder obstruction, its removal costs and cases on eight projects are presented. Compensation for boulder obstruction removal by volume or weight is not practical for most tunneling situation, but compensation by crew time is probably the most equitable method. If boulders are anticipated on project, boulder removal plan must be considered with proper equipment selection.

Determination of the Construction Method for Young Dong Tunnel by Risk Assessment (위험도 분석기법에 의한 영동선 터널의 굴착공법 결정사례)

  • Kim, Yong-Il;Hencher, S.R.;Yoon, Young-Hoon;Cho, Sang-Kook
    • Journal of Korean Tunnelling and Underground Space Association
    • /
    • v.4 no.1
    • /
    • pp.13-25
    • /
    • 2002
  • The construction method for Young Dong Tunnel has been chosen following detailed risk assessment. In this paper, the specific risks to the project programme, associated with adopting either mechanical excavation in the form of a shielded TBM, or drill and blast excavation methods, are assessed. From the risk assessment results, and taking other important factors into account, such as project sensitivity and local experience, the recommendation is made that the relatively low risk drill-and-blast method is the most appropriate for construction of Young Dong Tunnel.

  • PDF

Determination of the Construction Method for the Young Dong Tunnel by Risk Assessment (위험도 분석기법에 의한 영동선 터널의 굴착공법 결정사례)

  • Kim, Yong-Il;S. R. Hencher;Yoon, Young-Hoon;Cho, Sang-Kook
    • Proceedings of the KSR Conference
    • /
    • 2002.05a
    • /
    • pp.200-206
    • /
    • 2002
  • The construction method for the Young Dong Tunnel has been chosen following detailed risk assessment. In this paper, the specific risks to the project programme, associated with adopting either mechanical excavation in the form of a shielded TBM, or drill and blast excavation methods, are assessed. From the risk assessment results, and taking other important factors into account, such as project sensitivity and local experience, the recommendation is made that the relatively low risk drill-and-blast method is the most appropriate for construction of the Young Dong tunnel.

  • PDF

TBM considerations for soft-ground tunnels

  • Rozgonyi T. G.;Kieffer D. S.;Maidl U.;Bald Cernal
    • 한국지구물리탐사학회:학술대회논문집
    • /
    • 2003.11a
    • /
    • pp.42-51
    • /
    • 2003
  • The global demand for underground facilities has increased substantially in the past decades, and a substantial number of underground projects have had to deal with challenging ground conditions in urban environments. Particularly challenging are weak and unstable water bearing soils. Advancements in shielded TBM tech-nology have led to significant improvements regarding the ability to control ground deformations in soft ground. Nonetheless, ground collapse may occur even when the most advanced TBM designs are employed if unexpected adverse ground conditions are encountered or if insufficient stabilizing pressure is transferred to the tunnel face. This paper reviews common approaches for face stability and face pressure transmission calculations, and provides an overview of some of the latest technological developments and considerations for soft ground TBM applica-tions.

  • PDF

An overview of several techniques employed to overcome squeezing in mechanized tunnels; A case study

  • Eftekhari, Abbas;Aalianvari, Ali
    • Geomechanics and Engineering
    • /
    • v.18 no.2
    • /
    • pp.215-224
    • /
    • 2019
  • Excavation of long tunnels by shielded TBMs is a safe, fast, and efficient method of tunneling that mitigates many risks related to ground conditions. However, long-distance tunneling in great depth through adverse geological conditions brings about limitations in the application of TBMs. Among various harsh geological conditions, squeezing ground as a consequence of tunnel wall and face convergence could lead to cluttered blocking, shield jamming and in some cases failure in the support system. These issues or a combination of them could seriously hinder the performance of TBMs. The technique of excavation has a strong influence on the tunnel response when it is excavated under squeezing conditions. The Golab water conveyance tunnel was excavated by a double-shield TBM. This tunnel passes mainly through metamorphic weak rocks with up to 650 m overburden. These metamorphic rocks (Shales, Slates, Phyllites and Schists) together with some fault zones are incapable of sustaining high tangential stresses. Prediction of the convergence, estimation of the creeping effects and presenting strategies to overcome the squeezing ground are regarded as challenging tasks for the tunneling engineer. In this paper, the squeezing potential of the rock mass is investigated in specific regions by dint of numerical and analytical methods. Subsequently, several operational solutions which were conducted to counteract the challenges are explained in detail.