Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 5American Society of Mechanical Engineers, 2007 - Arctic regions |
From inside the book
Results 1-3 of 55
Page 275
... breaking . The breaking criterion in terms of Sound Spectrum Level ( SSL ) is chosen to identify the breaking waves . The simultaneous wave elevation signals are measured with the pressure sensor , to get the wave group information ...
... breaking . The breaking criterion in terms of Sound Spectrum Level ( SSL ) is chosen to identify the breaking waves . The simultaneous wave elevation signals are measured with the pressure sensor , to get the wave group information ...
Page 281
... breaking criterion in terms of Sound Spectrum Level ( SSL ) is definitely employed to help detect wave breaking from the ambient sound signals . With the wave elevation and wind speed data observed , the relation of breaking probability ...
... breaking criterion in terms of Sound Spectrum Level ( SSL ) is definitely employed to help detect wave breaking from the ambient sound signals . With the wave elevation and wind speed data observed , the relation of breaking probability ...
Page 286
... breaking criterion that it caused breaking to initiate too far offshore and proposed an improvement to the criterion . It was proposed that a lower limit be placed on H to avoid this from occurring . A value of 0.78d was considered ...
... breaking criterion that it caused breaking to initiate too far offshore and proposed an improvement to the criterion . It was proposed that a lower limit be placed on H to avoid this from occurring . A value of 0.78d was considered ...
Contents
OCEAN SPACE UTILIZATION | 1 |
OMAE200729521 | 11 |
OMAE200729557 | 17 |
Copyright | |
67 other sections not shown
Other editions - View all
Common terms and phrases
26th International Conference aircushion amplitude analysis ASME bathymetry Bay of Fundy beach boundary conditions Bragg scattering breakwater buoy calculated cavitation Coastal coefficient computed Conference on Offshore Copyright 2007 density developed device diameter displacement dynamic effect element equation experimental factor floating body units flow fluid force frequency function gouge grout hydrodynamic ice load increase installed interaction linear Makran marine maximum measured Mechanics and Arctic method monopile motion mussels nonlinear Ocean ocean energy Offshore Mechanics offshore wind turbine optimization parameters pile pipe pipeline platform pontoon potential predicted pressure ratio Research response rotor scale scour depth seabed shown in Figure shrimp significant wave height simulation stray children stress structure Technology tidal power tower tsunami velocity velocity potential vertical Von Mises stress vortex water depth wave energy wave power width wind farms wind speed