• 대한조선학회논문집
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• 제50권6호
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• pp.407-413
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• 2013

In the conventional towing tank, the ordinary towing carriage has a speed barrier which caused not only by the limitation of the length of towing tank but also the limitation of acceleration. Therefore the length of the towing tank should be decided carefully from the planning stage of the towing tank construction. Consequently the acceleration of the towing carriage should be taken less than 0.06g practically to avoid the slip of the wheel on rail. Due to the increasing demand of the high speed experiments on the development of special novel ship, the requirement of the high speed towing carriage is continuously increased recently. When the minimum measuring time of the towing experiment is prescribed as five seconds, the carriage should be accelerated with higher than 0.12 g to get the speed of 18 m/sec even in the towing tank having a length of 400m in length approximately. This means that the requirement of acceleration is bigger than twice of the ordinary practices of carriage acceleration. In such a condition the exerted total power of motor could not converted to traction force for the acceleration of the carriage without slip. To over come these difficulties a pair of horizontal traction wheels are reinforced to each of the ordinary vertical carrier wheel and appropriate suspension system has been devised for the towing tank of super high speed operation. It is believed that the design of novel suspension system adaptable for the high speed acceleration of towing carriage will play a important role as a reference for the remodeling of the towing tank for high speed experiment.

• 대한조선학회논문집
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• 제53권3호
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• pp.228-236
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• 2016

Extraordinarily the establishment of towing tank has been initiated after the allocation of space at the basement floor of existing building through remodeling procedure. Therefore the asymmetric tank should be unavoidably determined by compromising with the allowable space and existing building structure. Consequently the shape of towing carriage ought to be selected as a cantilever type to match with the given environmental conditions. Finally the major role of the towing tank has been configured on the fundamental research work for the high speed marine vehicles. Due to the limited length of towing tank, it is appeared that the carriage should accelerated with 1.2m/sec² which is equivalent to twice of the maximum acceleration in ordinary practices on design application of carriage. In such a condition the exerted total power of motor could not be converted to traction force of the carriage without slip for the acceleration. To overcome these difficulties the contact pressure of a horizontal traction wheel to rail has been reinforced by the elastic recovery force of springs on supporting rollers. It is believed that the design experience of the high speed towing carriage under unusual circumferential condition and acceleration barrier could be utilized not only on the design of high speed towing carriage but also on the improvement of existing facilities.

• 수산해양기술연구
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• 제5권1호
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• pp.14-20
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• 1969

$\circled1Connecting Spread를 일정하게 하고 Towing Line의 길이를 변화시킬 때 각 속도에 따른 망고 및 망폭 Towing line의 길이가 길어질수록 망고는 높아지고 망폭은 좁아진다. $\circled2$ Towing line의 길이를 일정하게 하고 Connecting Spread를 변화시킬 때 망고 및 망폭은 Connecting Spread가 넓어질 수록 망폭은 넓어지나 망고는 거의 변화가 없다.

• 대한조선학회지
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• 제11권2호
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• pp.45-52
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• 1974

• 대한조선학회논문집
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• 제51권5호
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• pp.396-408
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• 2014

In this study, uncertainty analysis based on ITTC(International Towing Tank Conference) Recommended Procedures is carried out in the towing-tank experiment for motion responses and added resistance. The experiment was conducted for KVLCC2 model in head sea condition. The heave, pitch and added resistance were measured in different wave conditions, and the measurement was repeated up to maximum 15 times in each wave condition in order to observe the uncertainty of measured data. The uncertainty analysis was carried out by adopting the ISO-GUM(International Organization for Standardization, Guide to the Expression of Uncertainty in Measurements) method recommended by ITTC. This paper describes the details about the analysis method, uncertainty and the measured uncertainty for each source. The uncertainty analysis results are summarized as a tabular form. To validate the accuracy of the present measurement, the experimental results are compared with the results of numerical computation and other experiment. From the present uncertainty analysis, the main sources of uncertainty are identified, which can be very useful to improve the accuracy for added resistance experiment.

• 대한조선학회논문집
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• 제40권5호
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• pp.1-9
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• 2003

To predict the powering performance of full scale ships from the towing tank tests, resistance, propeller open water and self-propulsion tests are conducted. Model tests inevitably include the experimental error defined as the sum of two types of uncertainties, bias and precision errors. The induced errors in each element of model test are propagated through various routes and correlated with one another. The correlation coefficients are very important in the uncertainty analysis. The coefficient gives a direction(increase or decrease) for a value of error in individual elements. If the coefficient is not used accurately, the error bounds of the individual elements are overestimated or underestimated. In this study, the new methodology is applied to the uncertainty analysis of HMRI's towing tank tests, thus error bounds of each element is suggested and verified by several repetitive experiments.

• International Journal of Naval Architecture and Ocean Engineering
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• 제5권3호
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• pp.404-413
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• 2013

In the present study, a towed underwater particle image velocimetry (PIV) system was validated in uniform flow and used to investigate the free-surface effects on the turbulent wake of a simple surface-piercing body. The selected test model was a cylindrical geometry formed by extruding the Wigley hull's waterplane shape in the vertical direction. Due to the constraints of the two-dimensional (2D) PIV system used for the present study, the velocity field measurements were done separately for the vertical and horizontal planes. Using the measured data at several different locations, it was possible to identify the free-surface effects on the turbulent wake in terms of the mean velocity components and turbulence quantities. In order to provide an accuracy level of the data, uncertainty assessment was done following the International Towing Tank Conference standard procedure.

• 수산해양기술연구
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• 제31권3호
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• pp.228-239
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• 1995

우리나라 800 ps급 쌍끌이 저인망어선에서 사용할 수 있도록 덴마크에서 이미 보편적으로 사용하고 있는 사용하고 있는 쌍끌이 중층 트롤 어구를 Tauti의 어구비교법칙과 예인수조의 크기 등을 고려하여 1/30의 크기로 축소 제작하여, 이 모형어구에 대한 기본 성능을 알아보기 위해 예인속도 0.46~1.15m/sec(실물환산 2~5k't), weight 142g(실물환산 640kg)에 Front weight 15.5~62.0g(실물환산 70~280kg) 및 양선간격 5~8m(실물환산 150~240m)의 변화에 따른 모형어구의 망고, 망폭, 예인장력, 예망수축 등을 측정 분석하여 실물로 환산한 결과를 요약하면 다음과 같다. 1. 망고는 예인속도 2k't, Front weight 280kg, 양선간격 150m 일 때 32m로 가장 높게 나타났으며, 예인속도 5k't, Front weight 70kg, 양선간격 240m 일 때 6m로 낮게 나타났다. 2. 망폭은 예인속도 5k't, Front weight 70kg, 양선간격 240m 일 때 45m로 가장 넓게 나타났으며, 예인속도 2k't, Front weight 280kg, 양선간격 150m 일 때 33m로 가장 좁게 나타났다. 3. 예인장력은 예인속도 5k't, Front weight 280kg, 양선간격 240m일 때 10,000kg로 가장 크게 나타났으며, 예인속도 2k't, Front weight 70kg, 양선간격 150m 일 때 1,600kg로 가장 작게 나타났다. 4. 어구의 예망수층은 예인속도 2k't, Front weight 280kg, 양선간격 150m 일 때 38m로 가장 깊게 나타났으며, 예인속도 5k't, Front weight 70kg, 양선간격 240m 일 때 6m로 가장 얕게 나타났다. 5. 어구의 망구면적은 예인속도 2k't, Front weight 280kg, 양선간격 180m 일 때 1,100m 상(2)로 가장 크게 나타났으며, 예인속도 5k't, Front weight 70kg, 양선간격 240m 일 때 250m 상(2)로 가장 작게 나타났다

• 대한조선학회논문집
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• 제37권1호
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• pp.26-39
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• 2000

예인수조와 캐비테이션 터널에서 레이놀즈 수가 프로펠러 단독 특성시험에 미치는 영향을 씨리즈 모형 프로펠러(날개수=4, $0.3{\leq}A_E/A_O{\leq}0.75,\;0.5{\leq}P/D{\leq}1.1$)에 대하여 실험적인 방법으로 조사하였다. 예인수조에서 프로펠러 단독 특성시험을 위한 시험조건으로 제15차와 17차 ITTC에서 추천한 레이놀즈 수($R_n{\geq}3.0{\times}10^5$)는 시험조건으로써 불충분함을 보였으며 적합한 시험조건 선정방법을 제안하였다. 예인수조와 캐비테이션 터널에서 프로펠러 단독특성들의 상호관계를 나타내는 상관계수($\kappa$)를 도출하였다. 프로펠러 축 주위에서 형성된 경계층 유동이 프로펠러 특성에 미치는 영향을 레이저 유속계를 이용한 계측에 의해 조사하였으며, 그 영향이 작지 않다는 것을 보였다.

• International Journal of Naval Architecture and Ocean Engineering
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• 제10권5호
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• pp.596-608
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• 2018

The present study aims to assess test uncertainty assessment method of nominal wake field measurement by a Stereoscopic Particle Image Velocimetry (SPIV) system in a towing tank. The systematic uncertainty of the SPIV system was estimated from repeated uniform flow measurements. In the uniform flow measurement case, time interval between image frames and uniform flow speed were varied to examine the effects of particle displacement and flow around the SPIV system on the systematic standard uncertainty. The random standard uncertainty was assessed by repeating nominal wake field measurements and the estimated random standard uncertainty was compared with that of laser Doppler velocimetry. The test uncertainty assessment method was applied to nominal wake measurement tests of a very large crude oil carrier model ship. The nominal wake measurement results were compared with existing experimental database by other measurement methods, with its assessed uncertainty.