• 대한조선학회논문집
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• 제49권2호
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• pp.124-131
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• 2012

This paper provides prediction of ultimate longitudinal strengths of hull girder of a VLCC considering probabilistic damage extents due to collision and grounding accidents based on IMO Guideline(2003). The probability density functions of damage extents are expressed as a function of nondimensional damage variables. The accumulated probability levels of 10%, 30%, 50%, and 70% are taken into account for the damage extent estimation. The ultimate strengths have been calculated using in-house software UMADS (Ultimate Moment Analysis of Damaged Ships) which is based on the progressive collapse method. Damage indices are provided for all heeling angles due to any possible flooding of compartments from $0^{\circ}$ to $180^{\circ}$ which represent from sagging to hogging conditions, respectively. The analysis results reveal that minimum damage indices show different values according to heeling angles and damage levels.

• 대한조선학회논문집
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• 제43권3호
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• pp.275-284
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• 2006

In recent years, many environmentally disastrous maritime accidents resulted from oil or fuel spills from damaged vessels. The situation becomes worse especially when the early counter treatment is not prompt enough. To properly handle this type of accidents and prevent further disasters, the propulsive performance of damaged vessels must be better understood for salvage operations, as well as for containing oil spills while the vessels are being towed or self-propelled. Until now, many hydrodynamic studies have focused on the propulsive performance of undamaged vessels but only a few studies on that of damaged vessels. in this paper, both experimental and computational methods are used to study the propulsive performance of a VLCC in heeled and/or trimmed conditions. For experimental studies, measurement systems should be modified to adapt to the variations of attitude of a damaged vessel. For numerical studies, CFD programs should be also extended to be applied to asymmetrically floating conditions.

• 선박안전
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• 통권23호
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• pp.78-97
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• 2007

SPM, which is an abbreviation of Single Point Mooring, also called as SBM(Single Buoy Mooring), is a special buoy besides the quays of the harbor for mooring ships, and is normally a 3m wide cone or cylinder shaped steel drum fixed underwater so it won't move, and is used for mooring cargo-work at outer port by laid-up ships and large crude oil carrier. The work of VLCC SPM mainly is accomplished on the open sea. On the open sea as a result of meteorological condition and the ocean wave influence, When the weather condition is get bed, peremptorily moving to the safety place, because of the gale and the billow, almost happened frequently, the pilot is unable to go on board and the tug is also unable to be used Now because of the bad weather the VLCC SPM moving to the other safety place frequently happened in the ulsan port. the construction of new harbor, it constructed many break water around SPM. So that it is necessary to propose the new standard about how to maneuvering area actually. The standard for handling ranges of the SPM operations was tested and verified by a simulation.. So that it is necessary to propose the new standard about how to maneuvering area actually.

• 대한조선학회논문집
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• 제30권2호
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• pp.123-131
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• 1993

오늘날 과학은 놀랍게 발전하고 있고, 과학문명의 성상은 인류의 위대한 업적 중 하나로 높게 평가되어진다. 그러나 한편, 이러한 발전은 새로운 문제를 유발케 되었는데 즉, 지구환경 오염을 가져오게 된 것이다. 이 지구환경 오염의 현상은 지구를 황폐케 할 뿐 아니라, 인간 생존권조차 위협케 되었다. 지난 1970년대로부터 유조선의 건조가 가속화되면서 전 세계적으로 해상환경오염방지에 대한 관심이 높아지면서 급기야 IMO에서 유조선에 대한 이중선체 구조의 의무화를 규정화 하였다. 이러한 시대적 배경을 통하여 당사에서는 미래 선박으로서 초대형 이중선체 유조선을 개발케 되었고, 본고에서는 각종 국제규정을 만족시키는 300K 이중선체 유조선 개발 내용을 소개하며, 특히 화물창부에 대한 구조배치 및 직접구조계산을 수행한 내용을 소개코져 한다.

• 대한조선학회논문집
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• 제50권4호
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• pp.255-261
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• 2013

This paper presents prediction of ultimate longitudinal strength of a VLCC, "Energy Concentration" for which many benchmark studies have been carried out, based on kinematic displacement method proposed by Tayyar and Bayraktarkatal (2012). Kinematic displacement theory provides semi-analytical solution of average compressive strengths for various kinds of stiffened panels. The accuracy of average compressive strengths obtained from formulas of CSR(common structural rules) for tankers and kinematic displacement method are discussed in the fore part of this paper. Hull girder ultimate strengths using Smith method are also compared for different average compressive strengths. By comparing them with other benchmark results, it is concluded that the new method provides lower bounds, because hull girder strengths under the sagging and hogging moment conditions approach nearly lower bounds.

• 한국산학기술학회논문지
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• 제18권12호
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• pp.135-139
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• 2017

VLCC 추진축계의 선미관 후부 베어링에서 주로 발생하는 발열 사고는 프로펠러 하중이 추진축을 처지게 하여 후방부에 과도한 국부압착압력이 작용하는 것이 주된 원인이다. 최근 VLCC는 엔진 출력이 크고 축 직경이 증가하는 반면 선미관전부 베어링과 후부 베어링 사이의 간격이 상대적으로 짧아져 축계 시스템의 유연성이 저하되는 경향이 있으며, 이로 인해 발열 사고 가능성에 대한 우려가 커지고 있다. 본 연구에서는 선체의 변형에 대한 축계의 유연성을 확보하기 위한 방안으로 선미관 전부 베어링을 삭제하고 선미관 후부 베어링만을 설치한 새로운 축계 시스템의 적용 가능성을 검토하였다. 국부압착압력의 계산에 있어서는 접촉 너비를 따라 반 타원 형상의 압력 분포를 가정한 Hertzian 접촉 조건을 도입하였으며, 엔진 가동 상태의 프로펠러 하중, 열 효과 및 선체 변형을 고려하였다. 제안된 축계 시스템에 대한 해석을 통해 선미관 후부 베어링의 축 접촉면 재료인 화이트 메탈에 부분 경사를 추가 시공함으로써 설계 요구 조건이 만족됨을 확인하였다. 제안된 축계 시스템의 적용을 통해 발열 사고 예방을 위한 축계 유연성 확보 뿐 만 아니라 시스템의 단순화를 통한 설치비용의 감소 등 부가적인 효과도 기대할 수 있다.

• 대한조선학회지
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• 제11권2호
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• pp.63-74
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• 1974

• Journal of Ship and Ocean Technology
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• 제5권2호
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• pp.27-48
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• 2001

Turbulent flow calculations are performed for the two modern practical VLCCs with the sable forebody and the slightly different afterbody, i.e. KVLCC and KVLCC2. Three $\textsc{k}-\varepsilon$ turbulence models are tested to investigate the differences caused by the turbulence models. The calculated results around the two VLCC hull forms using O-O grid topology and profile-fitted surface meshes are compared to the measured data from towing tank experiment. The realizable $\textsc{k}-\varepsilon$model provided realistic wake distribution with hook-like shape, while the standard and RNG-based $\textsc{k}-\varepsilon$models failed. It is very encouraging to see that the CFD with relatively simple turbulence closure can tell the difference quantitatively as well as qualitatively for the two hull forms with stern frameline modification.

• Journal of Ship and Ocean Technology
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• 제10권1호
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• pp.27-37
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• 2006

Current loads acting on offshore vessels are important for predicting the hydrodynamic and structural responses of the vessels. It is also true for analyzing the behavior of moored systems under the action of ocean current. Unfortunately there are few standardized current load coefficients for offshore vessels and it is extremely difficult to be applied to arbitrary hull shapes, if any. Therefore current load coefficients for three hull shapes are calculated in this study using a CFD code, which is well known in the shipbuilding industry. In order to validate the present approach, a typical VLCC is taken as numerical example and resulting current coefficients are compared with experiment together with the OCIMF data. The comparison shows a good agreement in the qualitative sense. Two additional models considered herein are a shuttle tanker and a FPSO under deepwater condition $(WD/T{\geq}6)$. The present numerical approach may be utilized for practical design of offshore vessels.

• 한국항해항만학회:학술대회논문집
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• 한국항해항만학회 1998년도 춘계학술발표회 논문집
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• pp.101-110
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• 1998

The safe passing maneuver of a large vessel along the designed course through a narrow channel in the flow of strong current is greatly related with her maneuvering characteristics. This paper treats maneuvering characteristic of a large vessel changing her course with the use of her control surface in a narrow channel with strong current. In this paper, the author proposed mathematical models of calculating maneuvering motions of the very large LNG tanker altering course using her control surface and calculated passing tracks of the vessel through the channel and compared the calculated results with those of maneuvering simulations by a desk-top simulator. In general the motions with the calculated values and the simulated motions are well coincided with each other.