Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 5American Society of Mechanical Engineers, 2001 - Arctic regions |
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Page 137
... hydrodynamics . The effects of hydroelasticity and frequency dependent added mass are included . The time- domain structural analysis model applies the hydrodynamic loads to one of three basic model types : lumped mass , beam or shell ...
... hydrodynamics . The effects of hydroelasticity and frequency dependent added mass are included . The time- domain structural analysis model applies the hydrodynamic loads to one of three basic model types : lumped mass , beam or shell ...
Page 139
... hydrodynamic analysis code such as HIPAN . 2. Map frequency - domain hydrodynamic loads to time- domain structural loads . This mapping is done using the software MOB - HyLoads . The hydrodynamic diffraction results are scaled with ...
... hydrodynamic analysis code such as HIPAN . 2. Map frequency - domain hydrodynamic loads to time- domain structural loads . This mapping is done using the software MOB - HyLoads . The hydrodynamic diffraction results are scaled with ...
Page 164
module in Fig . 4 . Fluid Panel Model For the hydrodynamic analysis , an accurate representation of the wetted surface is required . A panel mesh involving 4,480 panels is shown in Figure 5. ( In the actual hydrodynamic calculations ...
module in Fig . 4 . Fluid Panel Model For the hydrodynamic analysis , an accurate representation of the wetted surface is required . A panel mesh involving 4,480 panels is shown in Figure 5. ( In the actual hydrodynamic calculations ...
Contents
OMAE2001OSU5019 | 93 |
OMAE2001OSU5021 | 101 |
OMAE2001OSU5022 | 111 |
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20th International Conference ABAQUS air chamber amplitude analysis angle Arctic Engineering beam bending breakwater bridge calculated CO₂ coefficient Conference on Offshore connector construction damping deformation developed diffraction distribution drift force dynamic ecosystem model effect elastic response environmental equation experimental FBSP Feb May Aug fence Figure floating breakwater flow freak waves frequency function girder guide vane hindcast HIPAN horizontal hydrodynamic hydroelastic response incident wave irregular waves Japan Large Floating Structures layer linear load maneuvers measured Mechanics and Arctic Mega-Float method Mobile Offshore Base model tests modules moon-pool mooring forces mooring system motion mussels non-linear ocean Offshore Mechanics PETROBRAS phytoplankton predicted RADARSAT-1 reef Rio de Janeiro ship shoreline shown shows significant wave height simulation submerged plate suction Tokyo Bay turbine Uchiumi velocity vertical displacements VLFS water depth wave energy absorbing wave period wave power wind