Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 1American Society of Mechanical Engineers, 2006 - Arctic regions |
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Page 567
... body can be solely represented by a part of the fluid mechanical energy corresponding to the wetted surface of the body . In this regard , it is indicated that the lin- ear radiation damping can be expressed by a fluid kinetic energy ...
... body can be solely represented by a part of the fluid mechanical energy corresponding to the wetted surface of the body . In this regard , it is indicated that the lin- ear radiation damping can be expressed by a fluid kinetic energy ...
Page 568
... body surface in the direction normal to itself and nɑ is the component of the generalized unit normal vector on the body wetted surface taken to be positive when directing into the body . By a common application of the divergence ...
... body surface in the direction normal to itself and nɑ is the component of the generalized unit normal vector on the body wetted surface taken to be positive when directing into the body . By a common application of the divergence ...
Page 569
... body wetted surface , it is postu- lated that in an energy approach , the fluid kinetic and potential energy driven by the wetted surface of the body represent all fluid actions on the rigid body . In other words , as in the momentum ...
... body wetted surface , it is postu- lated that in an energy approach , the fluid kinetic and potential energy driven by the wetted surface of the body represent all fluid actions on the rigid body . In other words , as in the momentum ...
Contents
OFFSHORE TECHNOLOGY | 1 |
OMAE200692014 | 7 |
OMAE200692055 | 23 |
Copyright | |
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25th International Conference added mass amplitude analysis applied Arctic Engineering June ASME axial behavior bending bending moment boundary caisson calculated catenary coefficients collision computed Conference on Offshore configuration considered Copyright 2006 curve cylinder damping deck diameter displacement dynamic effects Engineering June 4-9 equation experimental fatigue damage floating force frequency domain function heave hull hydrodynamic impact interaction jacket linear LNG carrier matrix maximum measured Mechanics and Arctic method mode mode shapes model tests mooring lines motion natural frequency nodes nonlinear numerical obtained Ocean Offshore Mechanics oscillation parameters pile pipe plate platform predicted presented ratio response riser S-N curve sensor shear ship shown in Figure simulation soil spar spar platform static stiffness strakes stress surface Table tank Technology tendon transverse values velocity vertical vessel vibration vortex induced vibrations water depth wave height weld wind farm wind turbine