• Title/Summary/Keyword: Capacity of Anchorage

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A Basic Study on the Demand Analysis of Waiting Anchorage using Anchorage Capacity Index (정박지 용량지수를 활용한 대기정박지 수요 분석에 대한 기초 연구)

  • Kwon, Seung-Cheol;Yu, Yong-Ung;Park, Jun-Mo;Lee, Yun-Sok
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.25 no.5
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    • pp.519-526
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    • 2019
  • This study proposes a methodology for estimating the appropriate capacity of anchorage for ports requiring the establishment of waiting anchorage and then applying the methodology to the ports in Jinhae Bay to compare it with the anchorage capacity of major ports in Korea. To estimate the appropriate anchorage capacity, the "Anchorage Capacity Index" was used, which was calculated from the "Total Gross Tonnage" and "Simultaneous Anchoring Capacity". The calculations were made according to the anchorage capacity index of 0.89 of the target harbors. The adequate anchorage capacity index for the new waiting anchorage was analyzed at a level of 6.0. If the concept of anchorage capacity index suggested in this study is reflected as a new design criteria of waiting anchorage, it will be helpful for the safety of berth, safety of anchorage and effective operation of harbor.

A Study on the Comparison of the Capacity of Waiting Anchorage Design according to the Port Operation Method - Focusing on Busan New Port -

  • Park, Jun-mo;Yang, Hyoung-Seon
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.25 no.3
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    • pp.251-258
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    • 2019
  • This study was conducted to propose an effective port operation method in terms of the design capacity of waiting anchorage by comparing the ratio and the number of waiting anchorage according to the port operation method of Busan New Port. For this, the Arena simulation program compared the rates of waiting vessels according to the application of the multi-user terminal, liner terminal and hybrid liner terminal operation methods. As a result, analysis suggested the necessary anchorage space can be reduced to about 18 % when using the multi-user terminal operation method and about 15.6 % when using the hybrid liner terminal operation method, as compared with the liner terminal operation method. Specifically, it was effective to apply the multi-user terminal operation method in terms of the anchorage capacity to be designated to Busan New Port. This study can apply to the designation of the new anchorage in the Busan New Port by reflecting the contents of the design of the anchorage in accordance with the port operation method.

A Study on the Revision of Regulations for Effective Operation of Anchorage (정박지의 효율적 운영을 위한 세칙 개정방안)

  • Yun, Gwi-Ho
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.20 no.4
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    • pp.398-404
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    • 2014
  • The criteria of operating anchorage and the unit of anchorage capacity have not been unified and the different terms have been used in same matters in each regulations related to the anchorages provided in major domestic ports. The competent authorities and vessels which are going to use anchorages are confused due to those situations. This paper suggests the schemes to unify criteria of operating anchorage, the unit of anchorage capacity and terms used in same matters through reviewing the anchorage operating regulations provided in major domestic ports. In addition, this paper suggests that the principles of anchorage naming, the unit of anchorage capacity and the number of vessels that can be accommodated should be established at the next revision of regulations through reviewing the status of anchorages in major foreign ports to minimize the confusion on operating anchorages.

Effect of Anchorage Type of CFS on Flexural Behavior of RC Beams (탄소섬유쉬트의 정착 보강방법이 RC보의 휨거동에 미치는 영향)

  • Shin, Sung Woo;Bahn, Byong Youl;Lee, Kwang Soo;Cho, In Chol
    • Journal of the Korea institute for structural maintenance and inspection
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    • v.2 no.2
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    • pp.202-208
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    • 1998
  • To investigae the effect of anchorage type of carbon fiber sheet (CFS) on flexural behavior of RC beams, the loading test of RC beams reinforced with CFS was conducted in variable of anchorage Type such as bolting anchorage and U type anchorage using CFS. This study can be summarized as follows ; It is confirmed experimentally that the bolting anchorage and U type anchorage with CFS is very effective to delay the bond failure and prevent the peeling of CFS. Also, the anchorage type applied with this study is very effective to improve the ductility compared with the improving of maximum flexural strength of RC beams. It is believed that the anchorage type used this study must secure the ductile capacity of above 3 for the flexural strengthening of RC beams. In the future, it is required to obtain the data about anchorage type of CFS for utilization of field work as well as investigate the ductile capacity of conventional study of anchorage type

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Experimental and numerical study on tensile capacity of composite cable-girder anchorage joint

  • Xuefei Shi;Yuzhuo Zhong;Haiying Ma;Ke Hu;Zhiquan Liu;Cheng Zeng
    • Steel and Composite Structures
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    • v.49 no.2
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    • pp.215-230
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    • 2023
  • Cable-girder anchorage joint is the critical part of cable-supported bridges. Tensile-plate anchorage (TPA) is one of the most commonly used types of cable-girder anchorage joints in steel girder cable-supported bridges. In recent years, it has been proposed by bridge designers to apply TPA to concrete girder cable-supported bridges to form composite cable-girder anchorage joint (CCGAJ). In this paper, the mechanical performance of CCGAJ under tensile force is studied through experimental and numerical analyses. Firstly, the effects of the external prestressing (EP) and the bearing plate (BP) on the mechanical performance of CCGAJ were investigated through three tests. Then, finite element model was established for parametrical study, and was verified by the experimental results. Then, the effects of shear connector forms, EP, BP, vertical rebar rate, and perforated rebar rate on the tensile capacity of CCGAJ were investigated through numerical analyses. The results show that the tensile capacity of CCGAJ depends on the first row of PR. The failure mode of CCGAJ using headed stud connectors is to form a shear failure surface at the end of the studs while the failure mode using PBLs is similar to the bending of a deep girder. Finally, based on the strut-and-tie model (STM), a calculation method for CCGAJ tensile capacity was proposed, which has a high accuracy and can be used to calculate the tensile capacity of CCGAJ.

Improvement Plans for Anchorage at Yeosu·Kwangyang Port (여수·광양항 정박지 개선방안에 관한 연구)

  • Lee, Hong-Hoon
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.23 no.1
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    • pp.17-25
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    • 2017
  • Relocation and expansion of existing port facilities are necessary given this increase in marine traffic volume and the presence of larger entering vessels. Therefore, this study focused on anchorage among water facilities, and examined the degree of harmony between anchorage and other water facilities at Yeosu Kwangyang Port. The number of anchoring vessels in relation to anchorage over the past 5 years, total anchored hours by anchorage-years, average number of simultaneously anchored vessels by anchorage-years, maximum number of simultaneously anchored vessels by anchorage, and maximum size of anchored vessels by anchorage have been surveyed. The minimum anchorage radius has been calculated according to the designated anchorage capacity according to anchorage. Finally, improvement plans for Yeosu Kwangyang Port's anchorage have been suggested, including relocating of Yeosu no. 2 anchorage, expanding of Kwangyang no. 1 ~ 5 anchorage, relocating of Kwangyang no. 8 ~ 9 anchorage, and repealing of Kwangyang no. 11 anchorage.

Study on the Improvement of the Ship Capacity Standard of Korean Harbour Facilities based on the Gross Tonnage - Focused on Anchorage among Water Facilities - (총톤수 중심으로 지정된 국내 항만시설의 선박수용능력 산정기준 개선방안에 관한 고찰 - 수역시설 중 정박지를 중심으로 -)

  • Lee, Hong-Hoon;Lee, Chang-Hyun;Kwon, Yu-Min
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.28 no.1
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    • pp.72-82
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    • 2022
  • The anchorage among harbour facilities should ensure sufficient water surface area for safe anchoring. A general method is to consider the L.O.A of the target ship and the depth and bottom quality of anchorage to calculate the water surface area of anchorage. However, the gross tonnage is used as a unit of the ship capacity standard of anchorage based on the detailed rules for harbour facilities operation in Korea. In this study, the gross tonnage is converted to L.O.A to calculate the actual anchoring radius of the target ship. This actual anchoring radius exceeds at 25 anchorages (among 90 anchorages) compared with the designated water surface area. Therefore, as an improvement plan of the ship capacity standard for anchorage, L.O.A should be used as a unit for anchorage based on the detailed rules for harbour facilities operation and related Korean maritime laws.

The Proper Capacity of Anchorage in Ulsan Port with Reference to the Anchorage Operating Rate (울산항 정박지 가동률 분석을 통한 적정 정박지 규모 제안에 관한 연구)

  • Park, Jun-Mo;Yun, Gwi-Ho;Jeon, Hae-Dong;Kong, Gil-Young
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.22 no.5
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    • pp.380-388
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    • 2016
  • This study suggests methods to evaluate the availability of anchorage in Ulsan port and determine the proper capacity of future anchorage in accordance with port development. Accordingly, the concept of an Anchorage Operating Rate (AOR) is introduced to evaluate the capacity of anchorage that was available in Ulsan port in 2014. Calculations revealed that the operating rate of all anchorages in Ulsan port did not exceed 100 %. However, in 2020 it is estimated that the AOR at E1 anchorage will be the highest with a rate of 168.3 %, followed by E3 with 131.1 %, E2 with 118.5 % and M with 108.7%. These findings indicate a shortage of anchorage by 2020. In order to decrease the AOR to a level that will not exceed 100 %, in accordance with port development in Ulsan, areas to accommodate an additional 11 ships at E1 anchorage, 1 ship at E2 anchorage, 2 ships at E3 anchorage and 1 ship at M anchorage will be necessary.

An Experimental Study on the Anchorage Capacity by Diameter and Anchor Type of Re-bar (콘크리트 구조체 매입 철근의 직경 및 유형별 앵커력 측정실험 연구)

  • Cho, Seong-Yeol;Son, Ki-Sang
    • Journal of the Korean Society of Safety
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    • v.29 no.5
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    • pp.67-73
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    • 2014
  • Construction equipment such as tower crane should be installed in a field without appropriate anchorage to cause a collapse of crane. The anchorage capacity can be varied with Anchor length, concrete strength, anchor diameter, hooked or non hooked these variables will be made and tested in the study. It is shown what anchorage capacity will be more effective case by case. Hooked and non-hooked rebar anchor concrete weight with dia 22mm rebar are shown with initial displacement at 170~220KN of hooked case and 200~210KN of non-hooked one which are linearly increased, without any ductility behavior with almost brittleness. Three(3) same test pieces are almost similarly behaviored without relation to hooked or non-hooked cases. It is found out that the bigger diameter of rebar becomes, the more resistant capacity could be made, but conversely ductility against sudden collapse similar to brittleness becomes the more insufficient. It is also found out that dia 16mm rebar could be more effectively applied to heavy support weight at construction sites.

Prediction of ultimate moment anchorage capacity of concrete filled steel box footing

  • Bashir, Muhammad Aun;Furuuchi, Hitoshi;Ueda, Tamon;Bashir, M. Nauman
    • Steel and Composite Structures
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    • v.15 no.6
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    • pp.645-658
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    • 2013
  • The objective of the study is to predict the moment anchorage capacity of the concrete filled steel box (CFSB) as footing by using the 3D finite element program CAMUI developed by authors' laboratory. The steel box is filled with concrete and concrete filled steel tube (CFT) column is inserted in the box. Numerical simulation of the experimental specimens was carried out after introducing the new constitutive model for post peak behavior of concrete in compression under confinement. The experimental program was conducted to verify the reliability of the simulation results by the FE program. The simulated peak loads agree reasonably with the experimental ones and was controlled by concrete crushing near the column. After confirming the reliability of the FEM simulation, effects of different parameters on the moment anchorage capacity of concrete filled steel box footing were clarified by conducting numerically parametric study.