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저층 트롤어구의 유수저항 특성 및 모형 실험시의 축척비 영향
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  • 저층 트롤어구의 유수저항 특성 및 모형 실험시의 축척비 영향
저자명
김대진,김대안,김태호,신형호,장덕종,차봉진,Kim. Dae-Jin,Kim. Dae-An,Kim. Tae-Ho,Shin. Hyeong-Ho,Jang. Duck-Jong,Cha. Bong-Jin
간행물명
한국어업기술학회지
권/호정보
2011년|47권 4호|pp.281-289 (9 pages)
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한국어업기술학회
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이 논문은 한국과학기술정보연구원과 논문 연계를 통해 무료로 제공되는 원문입니다.
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기타언어초록

The purpose of this study is to identify the flow resistance of the bottom trawl net. The bottom trawl net being used in the training ship of Chonnam National University was selected as a full-scale net, and model nets such as 1/10, 1/25 and 1/50 of the actual net were made. Total resistance of the net part, the height of the net mouth and the flow resistance of components of the net such as wing, bag and cod-end part was measured, converted into full-scale and compared. Additionally, the model rule of Tauti (1934), which has been most frequently used in fishing net modeling experiments, was applied to interpret flow resistance and scale effect of model experiment was investigated. Presumed that the flow resistance R is $R=kS{upsilon}^2$ against the flow velocity of each net ${upsilon}$, resistance coefficient k was calculated by substituting R, ${upsilon}$ and S of the net. From the result, it was found that k decreases exponentially when u increases which makes $k=c{upsilon}^{-m}$. Whereas m of each net is ranged between 0.13-0.16 and there was not significant difference between nets. c does not show big difference in 1/10 and 1/25 model and the value itself was relatively bigger than in 1/50 model. The height of the net mouth of 1/25 and 1/50 model net h decreases exponentially according as ${upsilon}$ increases to make $h=d{upsilon}^{-n}$. Whereas d and n values were almost same in two nets. Additionally, when resistance of cod-end, wing and bag part in 1/25 and 1/50 model nets, both nets showed big resistance in bag part when flow is 1m/s as more than 60%. Wing and cod-end part showed almost same value or wing part had little bit larger value. On the other hand, when reviewing the reasons why both models showed difference in 1/50 model while c value against the resistance coefficient k did not show big difference in 1/10 and 1/25 model, it is inferred that the difference occurred not from material difference but from the difference in net size according to scale. It was judged that they are the scale effects concomitant to the model experiments.