Springing and whipping are becoming increasingly important considerations in ship design as container ships increase in size. In this study, the springing and whipping characteristics of a large container ship were investigated through a series of systematic model tests in waves. A multi-segmented hull model with a backbone was adopted for measurement of springing and whipping signals. A conversion method for extracting torsion springing and whipping is described in this paper for the case of an open-section backbone. Higher-order springing, higher-mode torsion responses, and the effects of linear and nonlinear springing in irregular waves are highlighted in the discussion.
Experimental investigations of higher-order springing and whipping-WILS project
International Journal of Naval Architecture and Ocean Engineering ; 6 , 4 ; 1160-1181
2014
22 Seiten, 12 Quellen
Article (Journal)
English
Experimental investigations of higher-order springing and whipping-WILS project
DOAJ | 2014
|Experimental investigations of higher-order springing and whipping-WILS project
Online Contents | 2014
|Experimental investigations of higher-order springing and whipping-WILS project
DOAJ | 2014
|Experimental analysis of springing and whipping phenomena
Online Contents | 2000
|Wave-induced springing and whipping of high-speed vessels
British Library Conference Proceedings | 1994
|