An analytical method combining simplified potential flow theory and low aspect-ratio wing theory with empirical modifications for a real viscous fluid is used to predict the stability derivatives (first order hydrodynamic force and moment derivatives) of a family of hulls in order to estimate the dependence on geometric characteristics of course stability and turning or steering qualities. The hulls are Taylor Standard Series forms with after deadwood removed and have the same length and prismatic coefficient but varying length-draft and beam-draft ratios and skeg area. Comparison between the values calculated by this method and those obtained from experimental measurements shows good agreement. The analytical method can predict the relative effects of the geometrical characteristics Calculated magnitudes are slightly different from the experimental but are on the conservative side. However, since the hulls tested have the same prismatic, the empirical modification for the rotary moment derivative which is a function of prismatic coefficient has not been fully tested. Necessary refinements of the method must wait on analysis of data on series of forms with different prismatic as well as length-draft and beam-draft ratios.
Method of predicting course stability and turning qualities of ships1
International Shipbuilding Progress ; 11 , 121 ; 414-425
1964-09-01
12 pages
Article (Journal)
Electronic Resource
English
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