• Title/Summary/Keyword: 최적 터널설계

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Development of optimized TBM segmental lining design system (TBM 세그먼트 라이닝 최적 설계 시스템 개발)

  • Woo, Seungjoo;Chung, Eunmok;Yoo, Chungsik
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.18 no.1
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    • pp.13-30
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    • 2016
  • This paper concerns the development of an optimized TBM segmental lining design system for a subsea tunnel. The subsea tunnel is normally laid down under the sea water and submarine ground which consists of soil or rock. The design system is the series of process which can predict segmental lining member forces by ANN (artificial neural network system), analyze suitable section for the designated ground, construction and tunnel conditions. Finally, this lining design system aims to be connected with a BIM system for designing the subsea tunnel automatically. The lining member forces are predicted based on the ANN which was calculated by a FEM (finite element analysis) and it helps designers determine its segmental lining dimension easily without any further FE calculations.

A case study on the optimal tunnel design based on risk analysis (위험도 분석에 근거한 최적 터널설계 사례)

  • You, Kwang-Ho
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.12 no.5
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    • pp.379-387
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    • 2010
  • In this study, a case study was introduced for the design of a twin tunnel along high speed national highway Route 12 from Damyang to Sungsan. It was related to determine the optimal tunnel support pattern and excavation method based on a risk analysis in order to incorporate the uncertainty of ground properties. To this end, three alternatives with different amounts of support and excavation method were selected and risk analysis was performed by applying Monte Carlo simulation technique, respectively. Stability of the tunnel was quantified by the factor of safety. To improve the result, the 729 cases of the combination of ground properties (deformation modulus, cohesion, and internal friction angle) satisfying a Gaussian distribution were generated and applied. Also, stability of the tunnel was confirmed by analyzing the distribution of both displacement and shotcrete bending stress.

Development of Knowledge-based Study on Optimized NATM Lining Design System (지식기반형 NATM 라이닝 최적 설계 시스템 개발)

  • Song, Ju-Sang;Yoo, Chung-sik
    • Journal of the Korean Geosynthetics Society
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    • v.17 no.4
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    • pp.251-265
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    • 2018
  • This paper concerns the development of an optimized NATM secondary lining design system for a subsea tunnel. The subsea tunnel is normally laid down under the sea water and submarine ground which consists of soil or rock. The design system is the series of process which can predict lining member forces by ANN (artificial neural network system), analyze suitable section for the designated ground, construction and tunnel conditions. Finally, this lining design system aims to be connected for designing the subsea tunnel automatically. The lining member forces are predicted based on the ANN which was calculated by a FEM (finite element analysis) and it helps designers determine its lining dimension easily without any further FEM calculations.

A Study on Hydrophone Array Design Optimization for Cavitation Tunnel Noise Measurements (캐비테이션 터널 시험용 청음기배열 최적 설계기법)

  • Park, Cheolsoo;Seol, Hanshin;Kim, Gundo;Park, Youngha
    • The Journal of the Acoustical Society of Korea
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    • v.32 no.3
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    • pp.237-246
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    • 2013
  • This paper proposes a hydrophone array design optimization technique for cavitation tunnel noise measurements. The optimization technique comprises of design parameters, an objective function and an optimization algorithm. The design parameters are defined for circular, spiral and multi-spiral arrays. The objective function is defined so as to consider the mainlobe beamwidth and the maximum sidelobe level simultaneously. A global optimization scheme is applied to the array design using very fast simulated reannealing (VFSR). After applying the optimization technique to arrays respectively, the peak sidelobe level and the mainlobe beamwidth of optimum arrays are analyzed. Finally the array patterns considering multiple reflections in the cavitation tunnel are evaluated to validate the proposed method.

The Tunnel Lighting Design Using a Computer Simulation Program (Computer Simulation Program을 이용한 터널조명설비의 설계)

  • 박상훈;장우진
    • Proceedings of the Korean Institute of IIIuminating and Electrical Installation Engineers Conference
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    • 1999.11a
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    • pp.234-239
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    • 1999
  • 도로터널 조명설비의 합리적인 설계로 도로터널의 안전한 교통운행 확보와 쾌적한 운전 환경을 위하여 Computer Simulation Program을 이용한 최적의 터널조명환경을 조성하고 그 결과를 분석·검토하여 설계에 적용하고 조명설비 공사에 반영하며, 발생하는 문제점과 그 대책을 제시하고자 한다.

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Optimum Design of Tunnel Actuator using Finite Element Method and Response Surface Method (유한요소법과 반응표면법을 이용한 터널액추에이터의 최적설계)

  • Ko, Hyoung-Hwan;Kim, Chang-Eob;Mun, Ho-Young;Kim, Houng-Joong
    • Proceedings of the KIEE Conference
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    • 2011.07a
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    • pp.790-791
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    • 2011
  • 본 논문에서는 기존의 리니어모터와 터널 액추에이터의 장단점을 비교하였다. 성능 향상을 위한 최적화 설계방법에 대한 연구 방법을 제시하고, 3D 유한요소법과 반응표면법을 이용하여 터널 액추에이터의 추력이 최대가 되는 최적설계를 하였다.

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Norwegian Method of Tunnelling (노르웨이 터널 시공 방법)

  • 김치환;임경호;이석천
    • Proceedings of the Korean Society for Rock Mechanics Conference
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    • 1994.03a
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    • pp.1-11
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    • 1994
  • 현재 국내 터널의 설계와 시공은 대부분 NATM의 원리를 적용하고 있다. 그러나 터널의 설계 접근방법과 시공의 상황을 살펴보면 NATM을 국내 지질에 적용하는 것이 항상 최적이 아니라는 것을 알수 있으며, 국내 터널의 시공에 있어서도 NATM과 다른 개념의 도입과 정확한 이해가 필요하다는 것을 많은 기술자가 느끼고 있다. 따라서 보다 경제적이고 안전한 터널 시공방법의 결정을 위해 NATM의 개념과 다른 터널 설계 및 시공방법으로 노르웨이 터널 시공법(Norwegian Method of Tunnelling, NMT)을 소개하고자 한다. (중략)

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Development of optimal cross-section design methods for bored utility tunnels: case study of overseas typical cross-sections and design criteria (터널식 공동구 최적단면 설계기술 개발: 해외 표준단면 사례 및 설계기준 분석)

  • Park, Kwang-Joon;Yun, Kyoung-Yeol
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.20 no.6
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    • pp.1073-1090
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    • 2018
  • Since the domestic utility tunnels were built mainly in the development project of the new city, they are all in the form of cut-and-cover box tunnel. But, in the case of overseas construction of utility tunnels for existing urban areas, the bored tunnel types are mainly adopted. It is reasonable to install bored tunnels in a downtown area because it is difficult to block the roads or install bypass roads due to heavy traffic and civil complaints. In order to activate the utility tunnels in bored type, it is necessary to secure optimized cross-sectional design technology considering the optimal supplying capacity and mutual influencing factors (Thermal Interference, electrolytic corrosion, efficiency of the maintenance, etc.) of utilities (power cables, telecommunication cables, water pipes, etc.). The optimal cross-section design method for bored utility tunnels is ultimately to derive the optimal arrangement technique for the utilities. In order to develop the design methods, firstly, the cases of tunnel cross-section (Shield TBM, Conventional Tunneling) in overseas shall be investigated to analyze the characteristics of the installation of utilities in the section and installation of auxiliary facilities, It is necessary to sort out and analyze the criteria related to the inner cross-section design (arrangement) presented in the standards and guidelines.

Development and Application of Tunnel Design Automation Technology Using 3D Spatial Information : BIM-Based Design for Namhae Seomyeon - Yeosu Shindeok National Highway Construction (3D 공간정보를 활용한 터널 설계 자동화 기술 개발 및 적용 사례 : 남해 서면-여수 신덕 국도 건설공사 BIM기반 설계를 중심으로)

  • Eunji Jo;Woojin Kim;Kwangyeom Kim;Jaeho Jung;Sanghyuk Bang
    • Tunnel and Underground Space
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    • v.33 no.4
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    • pp.209-227
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    • 2023
  • The government continues to announce measures to revitalize smart construction technology based on BIM for productivity innovation in the construction industry. In the design phase, the goal is design automation and optimization by converging BIM Data and other advanced technologies. Accordingly, in the basic design of the Namhae Seomyeon-Yeosu Sindeok National Road Construction Project, a domestic undersea tunnel project, BIM-based design was carried out by developing tunnel design automation technology using 3D spatial information according to the tunnel design process. In order to derive the optimal alignment, more than 10,000 alignment cases were generated in 36hr using the generative design technique and a quantitative evaluation of the objective functions defined by the designer was performed. AI-based ground classification and 3D Geo Model were established to evaluate the economic feasibility and stability of the optimal alignment. AI-based ground classification has improved its precision by performing about 30 types of ground classification per borehole, and in the case of the 3D Geo Model, its utilization can be expected in that it can accumulate ground data added during construction. In the case of 3D blasting design, the optimal charge weight was derived in 5 minutes by reviewing all security objects on the project range on Dynamo, and the design result was visualized in 3D space for intuitive and convenient construction management so that it could be used directly during construction.