Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 1, Parts 1-2American Society of Mechanical Engineers, 2004 - Arctic regions |
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Page 872
... Maximum Wave Fatigue Damage ( 1 ) 2835 ft Maximum VIV Fatigue 4.23E - 04 6.37E - 04 Damage Location of Maximum VIV Fatigue Damage ( 1 ) 2951 ft 2248 ft Combined Maximum Fatigue Damage Combined Minimum Fatigue Life 941 years Notes ...
... Maximum Wave Fatigue Damage ( 1 ) 2835 ft Maximum VIV Fatigue 4.23E - 04 6.37E - 04 Damage Location of Maximum VIV Fatigue Damage ( 1 ) 2951 ft 2248 ft Combined Maximum Fatigue Damage Combined Minimum Fatigue Life 941 years Notes ...
Page 935
... maximum submergence while the angular acceleration reaches its maximum value . Fig . 5 clearly indicates that direct wave loads on the hull can significantly affect the global system angular acceleration and possibly the structural ...
... maximum submergence while the angular acceleration reaches its maximum value . Fig . 5 clearly indicates that direct wave loads on the hull can significantly affect the global system angular acceleration and possibly the structural ...
Page 1179
... Maximum Damage Before Spreading . Static Spreading Offset + 1st Order 1st + 2nd Order All Fatigue Seastates From Eight Directions All N fatigue seastates covering eight directions are considered . The results are normalized by the maximum ...
... Maximum Damage Before Spreading . Static Spreading Offset + 1st Order 1st + 2nd Order All Fatigue Seastates From Eight Directions All N fatigue seastates covering eight directions are considered . The results are normalized by the maximum ...
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Common terms and phrases
added mass amplitude analysis angle annulus ASME barge boundary conditions boundary element method British Columbia cable calculated CALM buoy Cantarell field catenary coefficient components computed Conference on Offshore configuration Copyright crane vessel cylinder damping deck developed diameter diffraction direction displacement dynamic effect element equation factor fairlead fatigue damage floating FPSO free surface function heave horizontal hull hydrodynamic iceberg installation interaction jacket joint length limit cycle linear marine maximum Mechanics and Arctic method model tests mooring lines mooring system motion nonlinear numerical obtained Offshore Mechanics offshore structures operation parameters particle Petrobras pile pipe pitch platform potential pressure regular waves response second order semi-submersible shear shear strength ship shown in Figure Spar spectrum Statoil stress surge Table tank tension values velocity velocity potential vertical vessel water depth wave height wave loads wavemaker weight wind Yaw Angle