Journal of the Society of Naval Architects of Korea (대한조선학회논문집)

The Society of Naval Architects of Korea (대한조선학회)
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An Experimental Study on the Optimization of Stern Appendix for New Generation Korean Fishing Vessels

차세대 한국형 어선의 저항성능 최적화를 위한 수조모형시험 연구

  • Lee, Min Kyung (Department of Naval Architecture and Ocean Engineering, Pusan National University) ;
  • Kim, Su Jin (Department of Naval Architecture and Ocean Engineering, Pusan National University) ;
  • Yu, Jin-Won (Global Core Research Center for Ships and Offshore Plants (GCRC-SOP), Pusan National University) ;
  • Lee, Inwon (Department of Naval Architecture and Ocean Engineering, Pusan National University)
  • 이민경 (부산대학교 조선해양공학과) ;
  • 김수진 (부산대학교 조선해양공학과) ;
  • 유진원 (부산대학교 조선해양플랜트 글로벌핵심연구센터) ;
  • 이인원 (부산대학교 조선해양공학과)
  • Received : 2020.09.29
  • Accepted : 2020.11.03
  • Published : 2021.02.20
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Abstract

Korean coastal fishery suffers from profitability degradation due to a decrease in fisheries resources, pollution in coastal waters, fuel coast increase, and market opening for aquaculture products. The next generation Korean fishing vessel aims at the improvement of energy efficiency, enhancement of crew welfare, and safety. These purposes can be accomplished by adopting a new standard hull form with improved resistance performance and a modernized residence facility on the deck. In order to improve resistance performance, this study attempts to optimize design variables for stern flaps for three kinds of fishing vessels - coastal multi-purpose, coastal trap, and dredged nets. A series of model tests for these fishing vessels was carried out in the towing tank of Pusan National University. The results indicate that for some cases, the stern flap caused the stern trim of the vessel to decrease, leading to the resistance reduction.

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References

  1. Cusanelli, D. & Karafiath, G., 2001. Stern flaps, Professional Boatbuilder, April-May.
  2. Karafiath, G. & Fisher, S.C., 1987. The effect of stern wedges on ship powering performance. Naval Engineers Journal, 99(3), pp.27-38. https://doi.org/10.1111/j.1559-3584.1987.tb02113.x
  3. Korea Institute of Machinery and Materials (KIMM), 1984. Research on the modernization of small fishing boats, KIMM.
  4. Park, D.W., 2018. An experimental study on the resistance performance of fishing vessel appendages. Journal of the Korean Society of Marine Engineering, 42(9), pp.668-674.
  5. Sakako, A., Ghassemi, H. & Keyvani, S., 2019. Evaluation of the hydrodynamic performance of planing boat with trim tab and interceptor and its optimization using genetic algorithm. Journal of Marine Science and Applications, 18, pp.131-141. https://doi.org/10.1007/s11804-018-0040-6
  6. Seo, K.H., et al., 2005. A review on hull designs and appendages performances for development of a 60m class semi-planing craft. Proceedings of Fall Annual Meeting of SNAK, Yongin, Republic of Korea, 3-4 November 2005, pp.869-875.
  7. Tsuchiya, T., 1972. New statistical regression analysis for fishing boat hull resistance. Journal of the Society of Naval Architects of Japan, 132, pp.63-80. https://doi.org/10.2534/jjasnaoe1968.1972.132_63
  8. Yaakob, O., Shamsuddin, S. & King, K., 2004. Stern flap for resistance reduction of planing hull craft: A case study with a fast crew boat model. Journal Teknologi, 41, pp.43-52.
  9. Yu, J.W., Lee, Y.G., Park, A.S., Ha, Y.J., Park, C.k. & Chio, Y.C., 2011. A Study on the Resistance Performance of Korean High-Speed Small Coastal Fishing Boat. Journal of the Society of Naval Architects of Korea, 48(2), pp.158-164. https://doi.org/10.3744/SNAK.2011.48.2.158