• 수산해양기술연구
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• 제22권1호
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• pp.1-5
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• 1986

In order to improve the net-mouth height of dragged gears, the authors devised models of floatingcollars of nylon cloth instead of floats and experimented with 4 types-A type (length 65em, breadth 3em), B type (length 65em, breadth 4em), C type (length 65em, breadth 5em) and D type (length 65 em, breadth 6em) attached respectively to the front edge of square of a model net after preliminary experimentation. These various types of floating collars were experimented in a circulating water channel to evaluate the characteristics of net-mouth height and hydrodynamic resistance and the effect of the length of bridles were also examined. The results obtained were as follows: 1. In case of attaching floats, the model net-mouth height reduced from 80 em to 20 em when current velocity was increased from 0.25m/see to 1m/sec. 2. In case of attaching floating collars, the model net-mouth heights were maintained 70 em, 71 em, 80 em, 78 em in maximum and 55 em, 63 em, 69 em, 73 em in minimum respectively even the current volocity was increased from 0.25 m/see to 1 m/see. 3. The model net-mouth height was reduced to 10 em maximum according to the current velocity and types of floating collars when the bridles were shortened 3~4 mm in length. 4. Hydrodynamic resistance of D type only was increased to 700 g in maximum and those of A, B, C type were reduced to 460 g in maximum at current velocity beyond 0.5 m/ see when bridles were shortened 3-4 mm in length. 5. But the model net-mouth heights became higher in accordance with breadth of floating coliars, B type was the best for this model net in case that hydrodynamic resistance was taken into account.

• 수산해양기술연구
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• 제49권3호
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• pp.175-187
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• 2013

Fuel consumption in fisheries is a primary concern due to environmental effects and costs to fishermen. Much research has been carried out to reduce the fuel consumption related to fishing operations. The fuel consumption of fishing gear during fishing operation is generally related to hydrodynamic resistance on the gear. This research demonstrates a new approach using numerical methods to reduce fuel consumption. The results from the simulation were verified with results that mirrored the model experiments. By designing the fishing gear using drawing software, the whole and partial resistance force on the gear can be calculated as a result of simulations. The simulation results will suggest suitable materials or gear structure for reducing the hydrodynamic forces on the gear while maintaining the performance of the gear. Furthermore, the efficiency of low energy used anchovy dragnet as economic point of view will be dealt. This research will helpful to reduce the GHG emissions from fishing operations and lead to reduce fishing costs due to fuel savings.

• 수산해양기술연구
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• 제13권2호
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• pp.1-4
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• 1977

원뿔대 모양의 은대구 통발을 권양할 때의 류휴저항을 측정하고, 그로부터 모랫줄의 굵기,권양의 소요 순마력등을 추산하는 식을 유도했다. 1.통발의 권양속도 v(m/sec)와 류휴저항(수중중량 포함)T(kg)사이에는 대체로 다음과 같은 관계가 성립한다. (a)빈통발을 직립으로 권양할 때: T=$48v^{1\cdot0}$ $45^\circ$ 경사지게 권양할 때: T=$50v^{1\cdot1}$ (단 $0.3\leqq v \leqq1.3$) 이고,이들 사이에 유의차는 없다. (b)밑면에 천을 깐 통발을 직립으로 권양할 때: T=$120^{1\cdot1}$ $45^\circ$ 경사지게 권양할 때: T=98v$^{1=cdot1}$ (단 $0.3\leqq v \leqq0.8$) 2.통발의 유류저항의 최대치를 T=$120v^{1\cdot1}$ (단 $0.3\leqq v \leqq0.8$)이라 보고, 모릿줄로써 P.P.3년 로우프를 쓴다면 d(mm)는 대략 $d=72\frac{D}{H}v^{1\cdot1}$ 을 만족시켜야 한다. 3.권양의 순마력 P(ps)는 $P=\frac{75}{120}\frac{D}{H}v^{2\cdot1}$ 이상일 것이 요구된다.

• Journal of Advanced Marine Engineering and Technology
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• 제36권5호
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• pp.627-634
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• 2012

본 연구는 개발된 인플래터블 카약의 유체역학적인 성능평가를 위한 수조시험 및 그 결과에 대한 내용을 포함하고 있다. 개발된 인플래터블 카약과 해외제품에 대한 경사시험, 선회시험은 해양공학수조에서 시제품에 대한 시험이 수행되었고 저항시험은 회류수조에서 축소된 모형선을 이용한 시험이 수행되어졌다. 다음과 같은 성능평가 방법을 이용하여 개발된 카약과 해외제품에 대한 각각의 장 단점이 비교되어졌다.

• 대한조선학회논문집
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• 제29권3호
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• pp.102-116
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• 1992

하나 또는 두개의 지주를 가지는 소수선면 쌍동선의 유체동역학적 특성에 대한 비교 연구결과를 다루었다. 두 모형선으로 정수중에서의 저항, 파랑중에서 정지 및 속도를 가질 때의 6자유도 운동응답, 그리고 파랑하중 등을 수조 실험실에서 측정하였으며 수치해석결과들과 자세하게 비교하였다. 본 연구 결과에 의거하여 두 SWATH 모델들의 장단점을 열거하였으며 이는 SWATH선의 설계 고려에 유익하게 쓰여질 수 있다고 생각된다.

• International Journal of Naval Architecture and Ocean Engineering
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• 제12권1호
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• pp.184-198
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• 2020

Decisions of the design speed, MCR, and engine capacity have been empirically made by assuming the value termed the sea margin. Due to ambiguity regarding the effect of some factors on the sea margin, the value has been commonly decided based on experience. To evaluate the value from a new viewpoint, it is necessary to construct an approach to estimate the sea margin through an objective procedure based on a physical and mathematical model. In this paper, a framework to estimate the actual sea margin of an LNGC based on the maneuvering equations of motion is suggested by considering the hull, propeller, rudder, and given sea route under wind and waves. The fouling effect is additionally quantified as the increase of total resistance by considering the re-docking period. The operation data is reviewed to amend the increase of the total resistance considering the speed loss of a ship. Finally, the factor of how much the resistance increases due to fouling is newly obtained for the vessel. Based on the comparison of the estimated sea margin with the empirical range of the sea margin, the constructed framework is regarded as feasible.

• 한국해양공학회지
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• 제29권6호
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• pp.436-444
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• 2015

A submerged body is sensitive to changes in the roll moment because of the small restoring moment and moment of inertia. Thus, a method for predicting the roll-related hydrodynamic coefficients is important. This paper describes a deduction method for the hydrodynamic coefficients based on the results of a coning motion test. A resistance test, static drift test, and coning motion test were performed to obtain the coefficients in the towing tank of Seoul National University. The sum of the hydrodynamic force, inertial force, gravity, and buoyancy was measured in the coning motion test. The hydrodynamic force was deduced by subtracting the inertial force, gravity, and buoyancy from the measured force. The hydrodynamic coefficients were deduced using the regression method.

• 대한조선학회논문집
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• 제52권6호
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• pp.485-493
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• 2015

Planing hull form is widely used as a high speed vessel hull. There is a problem of the planing hull not solved yet. The problem is that the planing hull has very large vertical acceleration and large heave and pitch motions. As one method for overcoming this problem, there is "wave-piercing hull". Before the motion in waves is investigated, the resistance and running attitude must be investigated. In this paper, the running attitude and resistance of two wave-piercing hulls are investigated by model tests. Model test results show that the wave-piercing hulls have large trim angle and sinkage at the high speed, so additional model tests are conducted by using the hull appended by stern interceptor that is very thin plate to increase the hydrodynamic pressure at the attached location. The results are compared with other planing hulls and the resistance components and the hydrodynamic force are discussed. From the model test results, it can be known that the stern interceptor is the effective appendage for the reduction of the resistance and trim angle of wave-piercing hull.

• International Journal of Ocean System Engineering
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• 제3권1호
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• pp.1-9
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• 2013

A design procedure for a ship with minimum resistance had been developed using a numerical optimization method called SQP (Sequential Quadratic Programming) combined with computational fluid dynamics (CFD) technique. The frictional resistance coefficient was estimated by the ITTC 1957 model-ship correlation line formula and the wave-making resistance coefficient was evaluated by the potential-flow panel method with the nonlinear free surface boundary conditions. The geometry of the hull surface was represented and modified by B-spline surface modeling technique during the optimization process. The Series 60 ($C_B$=0.60) hull was selected as a parent hull to obtain an optimized hull that produces minimum resistance. The models of the parent and optimized hull forms were tested at calm water condition in order to demonstrate the validity of the proposed methodolgy.

• Journal of Ship and Ocean Technology
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• 제6권2호
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• pp.23-36
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• 2002

This paper describes the powering, seakeeping and maneuvering performances for a 2,500-ton class trimaran. Influence of the side-hull forms and location of those in longitudinal and transverse direction to resistance performance was systematically investigated by a series of model tests and numerical calculations. It was found that the longitudinal location of side-hulls was the most influential design parameter to the resistance performance of the trimaran and the optimum location of side-hull depends on ship speeds. When the side-hull stem is located near the primary wave hollow generated by the main hull, the trimaran shows the best resistance performance. Powering performance of the trimaran is superior to those of similar mono-hull ships. Seakeeping model tests for the trimaran were executed and the results were compared with the theoretical results of a similar mono-hull ship. Generally speaking, seakeeping performance of the trimaran is superior to that of a mono-hull ship. In particular, pitching and rolling performance of the trimaran is excellent, which is due to the increased length and breadth. Maneuvering model tests using a HPMM equipment were executed to evaluate the maneuvering performance of the trimaran. Maneuvering simulation was performed using the maneuvering coefficients from the model tests. The results show that the control ability of heading angle and the direction keeping stability of the trimaran is excellent, even though the turning performance is rather worse compared to those of a similar mono-hull ship.