• 제목/요약/키워드: vessel collision load

검색결과 18건 처리시간 0.02초

방호공을 고려한 선박의 충돌하중 (The vessel collision load on bridge with fender system)

  • 이계희;고재용;이성로
    • 한국전산구조공학회:학술대회논문집
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    • 한국전산구조공학회 2004년도 봄 학술발표회 논문집
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    • pp.193-200
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    • 2004
  • In this study, the impact load on bridge by vessel collision in consideration of fender system is evaluated by numerical method. The bow of object vessel(DWT5000) is standardized, and modeled by shell elements. The main body of objective vessel is modeled by beam elements that present mass distribution and stiffness of vessel. The buoyancy effect of vessel is considered as linear spring. The two types of fender systems, such as steel and rubber are analyzed in this study. In steel fender system, the steel plates that absorb collision energy by its collapse are modeled by shell element with stiffener. The steel is material modeled elastic-plastic material. In the rubber fender system, the rubber material is modeled hyper-elastic material and the main body of fender is modeled by solid elements. The global impact responses of vessel and fender system are evaluated by explicit dynamic scheme. The results show that the magnitude of vessel collision force are depended on the material behavior of fender system. Also the values of collision load are conservative compare to the those of design codes.

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A framework for carrying out train safety evaluation and vibration analysis of a trussed-arch bridge subjected to vessel collision

  • Xia, Chaoyi;Zhang, Nan;Xia, He;Ma, Qin;Wu, Xuan
    • Structural Engineering and Mechanics
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    • 제59권4호
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    • pp.683-701
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    • 2016
  • Safety is the prime concern for a high-speed railway bridge, especially when it is subjected to a collision. In this paper, an analysis framework for the dynamic responses of train-bridge systems under collision load is established. A multi-body dynamics model is employed to represent the moving vehicle, the modal decomposition method is adopted to describe the bridge structure, and the time history of a collision load is used as the external load on the train-bridge system. A (180+216+180) m continuous steel trussed-arch bridge is considered as an illustrative case study. With the vessel collision acting on the pier, the displacements and accelerations at the pier-top and the mid-span of the bridge are calculated when a CRH2 high-speed train running through the bridge, and the influence of bridge vibration on the running safety indices of the train, including derailment factors, offload factors and lateral wheel/rail forces, are analyzed. The results demonstrate that under the vessel collision load, the dynamic responses of the bridge are greatly enlarged, threatening the running safety of high-speed train on the bridge, which is affected by both the collision intensity and the train speed.

선체의 회전을 고려한 선박과 교량의 간이충돌모델 (A Simplified Bridge-vessel Collision Model Considering with the Rotational Motions of the Vessel)

  • 이계희
    • 대한토목학회논문집
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    • 제31권2A호
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    • pp.43-49
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    • 2011
  • 본 연구에서는 선교나 부선등에 실린 장비들과 같이 선박의 회전중심으로부터 이격된 선박구조와 교량의 상부구조가 충돌하는 경우의 충돌거동을 해석할 수 있도록 선박의 회전을 고려한 간이충돌모델을 개발하였다. 충돌모델은 선박과 교량의 질량과 강도 및 비선형성을 나타내도록 하였고, 모델의 비선형 운동방정식을 4차 Runge-Kutta방법을 이용하여 수치적으로 해석하였다. 현재 국내에서 운용되고 있는 부선의 제원을 선폭을 기준으로 표준화하고 작성된 충돌모델을 이용하여 각종 충돌조건이 교량의 충돌하중이 미치는 영향에 대한 매개변수연구를 수행하였다.

선박과 해양 구조물의 충돌 해석 (Ship Collision Analysis with Offshore Structure)

  • 김종성;정현;고재용
    • 한국전산구조공학회:학술대회논문집
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    • 한국전산구조공학회 2004년도 봄 학술발표회 논문집
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    • pp.169-176
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    • 2004
  • Offshore structure crossing navigation waterways must not only be designed to resist gravity, wind, and earthquake load, but also be capable of resisting ship and barge collision load. Current specifications for offshore structure design provide empirical relationships for computing impact loads generated during barge collision, however, these relationships are based on the limited experimental data. In this paper, the dynamic finite element analysis is used to computing force for vessel collision scenarios to offshore structures. Results obtained from the ANSYS/LS-DYNA are compared to AASHTO bridge design specifications.

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현수교의 선박충돌 위험 및 설계박하중 (Ship Collision Risk of Suspension Bridge and Design Vessel Load)

  • 이성로;배용귀
    • 대한토목학회논문집
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    • 제26권1A호
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    • pp.11-19
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    • 2006
  • 본 연구에서는 현수교의 선박충돌해석을 위한 설계선박을 결정하기 위하여 선박충돌위험도해석을 수행한다. 선박충돌에 대한 설계선박을 결정하기 위하여 AASHTO 설계기준에서 제시한 3개의 선박충돌 설계방법 중 확률기반 해석방법인 Method II를 사용한다. 선박충돌 위험에 노출된 각각의 교각에 대해 선박충돌위험도 평가를 하여 교각의 충돌설계수평강도를 결정한다. 해석과정은 반복적인 것으로 교량부재의 충돌저항강도를 가정하고 연간파괴빈도를 계산하여 허용기준이 만족하도록 설계 변수를 수정한다. 허용기준은 예상연간파괴빈도에 근거한 가중치를 이용하여 교각에 할당한다. 해석결과에서 안전성과 경제성을 얻기 위해 이 할당방법을 주탑집중 할당방법과 비교한다. 비록 주탑집중 할당방법이 주탑에 비해 과대평가되는 교각의 설계수평강도를 적절히 수정할 경우 보다 경제적인 결과를 가져오지만, 가중치에 의한 할당방법이 설계인자의 특성을 정량적으로 고려하기 때문에 더 합리적인 것으로 보인다. 그리고 선박충돌위험도 평가로부터 얻어지는 충돌설계수평강도에 상응하는 각각의 교각에 대한 설계선박이 결정된다. 같은 교량에 대해서도 충돌설계수평강도가 수로 및 교량의 특성과 선박통행량에 따라 상당히 변화한다. 따라서 허용기준의 할당과 설계선박 선정에 대한 많은 연구가 요구된다.

A study on collision strength assessment of a jack-up rig with attendant vessel

  • Ma, Kuk Yeol;Kim, Jeong Hwan;Park, Joo Shin;Lee, Jae Myung;Seo, Jung Kwan
    • International Journal of Naval Architecture and Ocean Engineering
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    • 제12권1호
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    • pp.241-257
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    • 2020
  • The rapid proliferation of oil/gas drilling and wind turbine installations with jack-up rig-formed structures increases structural safety requirements, due to the greater risks of operational collisions during use of these structures. Therefore, current industrial practices and regulations have tended to increase the required accidental collision design loads (impact energies) for jack-up rigs. However, the existing simplified design approach tends to be limited to the design and prediction of local members due to the difficulty in applying the increased uniform impact energy to a brace member without regard for the member's position. It is therefore necessary to define accidental load estimation in terms of a reasonable collision scenario and its application to the structural response analysis. We found by a collision probabilistic approach that the kinetic energy ranged from a minimum of 9 MJ to a maximum 1049 MJ. Only 6% of these values are less than the 35 MJ recommendation of DNV-GL (2013). This study assumed and applied a representative design load of 196.2 MN for an impact load of 20,000 tons. Based on this design load, the detailed design of a leg structure was numerically verified via an FE analysis comprising three categories: linear analysis, buckling analysis and progressive collapse analysis. Based on the numerical results from this analysis, it was possible to predict the collapse mode and position of each member in relation to the collision load. This study provided a collision strength assessment between attendant vessels and a jack-up rig based on probabilistic collision scenarios and nonlinear structural analysis. The numerical results of this study also afforded reasonable evaluation criteria and specific evaluation procedures.

파일지지 구조물의 선박 충돌거동에 대한 해석 (Analysis of Ship Collision Behavior of Pile Supported Structure)

  • 배용귀;이성로
    • 대한토목학회논문집
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    • 제28권3A호
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    • pp.323-330
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    • 2008
  • 선박과 방호구조물 충돌시 구조물의 동적 특성들을 분석하기 위하여 항로상에 위치한 교량의 방호구조물인 강관파일그룹에 대한 선박충돌해석을 수행하였다. 해석은 선박과 파일의 유한요소 모델링, 비선형성 재료의 모델링, 강성충돌해석, 변위기반해석 그리고 충돌시나리오에 대한 연성충돌해석 등을 포함하고 있다. 강체벽에 대한 강성충돌해석을 통하여, 선수부의 충돌유형에 따른 충돌하중을 산정하였다. 변위기반 해석에서 방호시스템이 최대 수평 이격거리 내에서 흡수할 수 있는 대략적인 에너지의 범위를 산정할 수 있었다. 충돌시나리오별 연성충돌해석에서는 충돌시 거동을 방호시스템 설계를 고려하면서 검토하였다. 파일지지구조물의 에너지소산 메카니즘 분석을 통해 방호구조물의 최적 설계를 도출할 수 있다.

교각에 작용하는 설계선박충돌력 산정에 관한 연구 I : 평균충돌력 (A Study for the Evaluation of Ship Collision Forces for the Design of Bridge Pier I : Mean Collision Force)

  • 이계희;홍관영
    • 대한토목학회논문집
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    • 제31권3A호
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    • pp.199-206
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    • 2011
  • 현재 국내에서 사용되고 있는 교량의 선박충돌력에 대한 설계기준은 Woisin의 실험으로부터 제안된 평균충돌력을 적용한 AASHTO LRFD에 기반을 두고 있다. 이러한 평균충돌력의 보수성을 평가하기 위하여, 본 연구에서는 비선형 유한요소해석을 토대로 선박의 질량-가속도의 관계, 선수의 변형-운동에너지의 관계를 이용하여 선수충돌시 발생하는 평균충돌력을 산정하고 이를 AASHTO 설계기준과 비교하였다. 그 결과, 선박의 크기에 따른 평균충돌력의 변화는 해석에서 얻어진 평균충돌력에 비해 매우 보수적이지만 경향은 일치하는 것으로 나타났다. 그러나 속도에 따른 평균충돌력의 변화는 충돌속도에 비례하는 설계기준의 값과는 달리 선수의 소성거동에 지배를 받는 것으로 나타났다.

구조물의 선박충돌 해석 (Ship Collision Analysis of Structure)

  • 이성로;배용귀
    • 한국콘크리트학회:학술대회논문집
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    • 한국콘크리트학회 2005년도 봄학술 발표회 논문집(I)
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    • pp.347-350
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    • 2005
  • A ship collision analysis by finite element method is performed considering the effects of mass and speed of ship and material and shape of structures to analyze the dynamic characteristics by ship collision. From this analysis, collision load-time history and inelastic deformation of ship and structures are obtained. Dynamic characteristics are different from each other according to interaction. between ship and structures. It seems that there are lots of factor to have effects on the ship-structures interaction. But because little information is available on the behavior of the inelastic deformation of materials and structures during the type of dynamic impacts associated with vessel impact, assumptions based on experience and sound engineering practice should be substituted. Therefore more researches on the interaction between ship and structures are required.

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면내 충돌에 의한 유공 강판의 거동 해석 (In-Plane Collision Analysis of Perforated Steel Plates)

  • 강동백;이주원;나원배;김정태
    • 한국해양공학회지
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    • 제22권4호
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    • pp.65-71
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    • 2008
  • In many cases, open-type plate breakwaters use plates with multiple holes; the holes serve as energy dissipaters and weight reducers. Because of the multi-holes configuration, stress concentration should be considered during the design process. Among several design loading conditions, the loads from a possible collision with a man-made vessel or other unexpected events many damage a multi-perforated steel plate. In that case, the structural behavior of a multi-perforated steel plate is quite significant, and is not well understood. This study presents a collision analysis for a multi-perforated steel plate. First, four different perforation topologies (three with circles and one with squares) were selected to investigate the effect of different hole shapes on the structural response. Second, the wave force at a specific site was calculated and loaded onto a steel plate as a static load. The static stresses were used for reference values. Third, two rigid body impacters (cubical & cylindrical) were applied to the steel plates to investigate the transient stress responses. In addition, two different impacting angles ($45^{\circ}\;&\;90^{\circ}$) were selected to investigate the angle effect. From the collision analysis, the significance of the transient stresses was emphasized.