Add to ORKGIn this work the problem of slamming on the cross structure of catamarans is studied. An introduction and overview of the problem is given.Methods for predicting the slamming occurrence of high-speed power catamarans and sailing catamarans are presented. Emphasis is placed ondeveloping methods that are practical to use in order to facilitate prediction of slamming occurrence at the design stage. The methods used consist of three steps: Ship motion prediction, slamming identification and slamming pressurecalculations. Existing linear and non-linear ship motion prediction theories are used for high-speed power catamarans while a new strip theory has been developed specifically for motion prediction of sailing multihulls. Predicted shipmotion ...
Wave-piercing catamarans are used extensively for both defence and commercial sea transportation bec...
The rapid evolution of high-speed sea transportation has led to the development of large, fast, lig...
A 2.5m hydroelastic segmented catamaran model was developed based on the 112m INCAT wave-piercer cat...
Current design methods are limited in their ability to predict long term loading statistics relating...
Slamming of ships is a phenomenon characterized by a high wave load of short duration. Usually the s...
Commercial and military requirements for high-speed sea transportation has led to the evolution of l...
The unique geometry of wave-piercing catamarans causes the slamming process to be complex and challe...
Slamming effect is analyzed in this thesis of master degree work. This research is focusing in conse...
Global loads acting on high-speed wave-piercing catamarans are investigated using computational flui...
A computational model for catamaran wet deck slamming is developed on the basis of the variation of ...
High-speed catamarans have, over the past two decades, extended their service areas from protected w...
A “Reverse Engineering” approach to investigate slamming loads on large high-speed wave piercers is ...
Slamming loads and pressures on high-speed catamarans with a centre bow (CB) differ from those on co...
Two hydrodynamic analysis methods were developed to predict wave induced sectional loads and slammin...
Wave-piercing catamarans are used extensively for both defence and commercial sea transportation bec...
The rapid evolution of high-speed sea transportation has led to the development of large, fast, lig...
A 2.5m hydroelastic segmented catamaran model was developed based on the 112m INCAT wave-piercer cat...
Current design methods are limited in their ability to predict long term loading statistics relating...
Slamming of ships is a phenomenon characterized by a high wave load of short duration. Usually the s...
Commercial and military requirements for high-speed sea transportation has led to the evolution of l...
The unique geometry of wave-piercing catamarans causes the slamming process to be complex and challe...
Slamming effect is analyzed in this thesis of master degree work. This research is focusing in conse...
Global loads acting on high-speed wave-piercing catamarans are investigated using computational flui...
A computational model for catamaran wet deck slamming is developed on the basis of the variation of ...
High-speed catamarans have, over the past two decades, extended their service areas from protected w...
A “Reverse Engineering” approach to investigate slamming loads on large high-speed wave piercers is ...
Slamming loads and pressures on high-speed catamarans with a centre bow (CB) differ from those on co...
Two hydrodynamic analysis methods were developed to predict wave induced sectional loads and slammin...
Wave-piercing catamarans are used extensively for both defence and commercial sea transportation bec...
The rapid evolution of high-speed sea transportation has led to the development of large, fast, lig...
A 2.5m hydroelastic segmented catamaran model was developed based on the 112m INCAT wave-piercer cat...