著者
二村 正 石田 茂資 渡辺 巌 Tadashi NIMURA Shigesuke ISHIDA Iwao WATANABE 船舶技術研究所運動性能部 船舶技術研究所運動性能部 船舶技術研究所運動性能部
出版者
運輸省船舶技術研究所
雑誌
船舶技術研究所報告 (ISSN:0495775X)
巻号頁・発行日
vol.32, no.5, pp.233-264, 1996-02

Capsizing and re-righting performance of three types of sailing yachts, IOR racer type, conventional type and intermediate type, was experimentally investigated in beam transient waves with various wave heights. The effect of CG height, existence of mast and flooded water volume on the critical wave height for capsizing and for re-righting was examined. It was characteristic in the capsizing motion of the models with mast that the rolling motion almost stopped just after the mast plunged into the water because of the hydrodynamic impulsive force on the mast. The stopping heel angle was almost independent of hull forms and model conditions. As a result the static stability vanishing angle, θv, was crucial for capsizing even in flooded conditions. As for re-righting motion θv was also crucial. It was clarified that the IOR racer type yacht is easier to capsize and harder to re-right because of its small θv value even if it has large GM. The way of improving the capsizing resistance was discussed. Lowering the center of gravity or attaching a small float on top of the mast could be an easy and effective way to prevent capsizing disaster because that leads to a large θv value. The flooded water, in general, enlarged θv, that made the models capsize-resistant. But for re-righting motion the relation between the critical wave height for re-righting and θv was complicated, because the water prevents the motion of the models at the same time. The probability of capsizing and re-righting in a sea state with ISSC spectrum was examined. Moreover the capsizing duration time was calculated as a safety index. It was reconfirmed again by the probabilistic approach that θv is very important for the safety of sailing yachts. θv of 120 degrees was proposed as an safety criteria.
著者
花岡 達郎 Tatsuro Hanaoka 運輸省船舶技術研究所運動性能部
出版者
運輸省船舶技術研究所
雑誌
船舶技術研究所報告 (ISSN:0495775X)
巻号頁・発行日
vol.5, no.6, pp.217-257, 1969-01
被引用文献数
3

The purpose of the present paper is to give a fundamental theory of hydrodynamics concerning a screw propeller on the status of both potential and vortex theory.Chapter 1 is a brief description regarding historical aspect of the recent development in propeller theory.Chapter2 is devoted to the theory of a wing with finite span. We have been made familiar with propeller theory through wing theory. The description will be useful for us to understand the remainder of this paper.In this paper the propeller theory consists of three parts. The first deals with the fundamentals of the theory in the frame of linearized theory in Chapter 3.In Chapter 4 and 5, the theory previously discussed is developed to nonlinear theory and theory of wake-adapted propellers.