Journal of Fisheries and Marine Sciences Education (수산해양교육연구)

The Korean Society for Fisheries and Marine Sciences Education (한국수산해양교육학회)
권호 표지

Influence of Sail on the Reduced Rolling Motion of Small Ship

돛이 소형선박 횡동요 감소에 미치는 영향

  • Received : 2008.10.21
  • Accepted : 2009.01.28
  • Published : 2009.04.30
Download PDF
⟨ Previous Next ⟩

Abstract

In this study it will be discussed how to solve the problem of discomfort from rolling motion on the small fishing boats. Up to now, the equipments of reducing rolling system can be examined by various case, but difficult to apply small vessel by function, space and costly establishment. A way of improving the feeling of getting on a boat through the equipped sail at stern edge of bulwark top was researched and developed. The author has tested the sailing performance of the experimental skiff boat, from the signals obtained by the inclinometer in irregular waves and compared with the results got in sail on and off mode operation for 10 minutes duration at the conditions of stop and underway. These data has been analyzed in the application statistical methods. Eventually we summarize the analyzed results obtained from the vessel while stationary and underway for two cases, the vessel with a sail and the vessel without a sail. The field test was done in Jeju outer harbor. The ratio of the motion responses at resonance for the sail with and without cases indicate that under given conditions the motion was reduced by the efficiency of diminution is 4.726%, 2.792% in the stopping and 11.663%, 3.282% in the underway and mean rolling periods are 2.158, 2.142, 2.421, 2.412sec. and 1.968, 1.963, 2.089, 2.051sec. respectively. Consequently the efficiency of diminution was higher when the ship is underway and rolling periods got longer in the equipped sail.

Keywords

References

  1. Rameswar Bhattaacharyya,(1978). Dynamics of marine vehicles, John Wiley & Sons, Inc.New york, 121-125, 305-307
  2. Masuyama Y., Nakamura I., Tatano H., Takagi K., and Miyakawa T.,(1993). Sailing performance of ocean cruising yacht by full-scale sea test(Steady sailing performance and dynamic performance in waves), Journal of The Society of Naval Architects of Japan 172, 349-364
  3. Masuyama Y., Nakamura I., Tatano H., Sakaguchi K., and Kanekiyo T.,(1994). Sailing performance of ocean cruising yacht by full-scale sea test Maneuverability and tacking performance), Journal of The Society of Naval Architects of Japan 174, 377-388
  4. Moon, S.J J.A. Jeong, H.K. Yoon, G.J., Lee and S.P., Ann,(2005). An experimental study on mass driving anti-rolling system for ships, Journal of the Society of Naval Architects of Korea 42(6), 666-672 https://doi.org/10.3744/SNAK.2005.42.6.666
  5. Morwood J.,(1953). Sailing Aerodynamics. F. J. Parsons Ltd, London, 28-39
  6. Park, J.W.,(2000). Development of the new Chine hull -form for stability of coastal small fishing-vessel, Development of practical technology. Ministry of Maritime Affairs & Fisheries Report. 35-36
  7. Kim, Y.B.,(2002). A study on rudder-roll stabilizer system design for ship, The society of Mechanical Engineers of Korea 26(2),329-339 https://doi.org/10.3795/KSME-A.2002.26.2.329
  8. Woo, B.K., C.H. In and J.D. Koo,(1974). On the Performance of the anti rolling tank(2), Socirty of Naval Architects of Korea 11(1), 17-26
  9. Yamaguchi, S., A. Shinki and Y. Ogawara, (1993). On a Feedback control system of ship's rolling motion by an activated anti rolling tank, Journal of The Society of Naval Architects of Japan 126, 203-210
  10. Yoshimura Y., Kuroda T., Kikumoto M., Igarashi Y.,(2003). Roll-damping control by sail-angle, Journal of The Society of Naval Architects of Japan Symposium Proceeding 2, 85-86