Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 1; Volume 7, Part 1American Society of Mechanical Engineers, 1988 - Arctic regions |
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Page 167
... wave analysis and represents the maximum global responses divided by the corresponding regular wave amplitudes . With a view to capturing the proper dynamic response characteristics , selection of regular waves to generate transfer ...
... wave analysis and represents the maximum global responses divided by the corresponding regular wave amplitudes . With a view to capturing the proper dynamic response characteristics , selection of regular waves to generate transfer ...
Page 359
... wave energy spectrum density function S ( w ) and the transfer function of surge response G ( w ) X ( w ) -IG ( w ) ... amplitude x ( w ) devided by a wave amplitude a ( w ) or named amplitude spectrum with different circular frequencies ...
... wave energy spectrum density function S ( w ) and the transfer function of surge response G ( w ) X ( w ) -IG ( w ) ... amplitude x ( w ) devided by a wave amplitude a ( w ) or named amplitude spectrum with different circular frequencies ...
Page 553
... Wave amplitude Wave period Surge amplitude - vessel = 203.2 mm = 259. mm = 417 m = 243 m = 12.9 m = 10.8 s = 10. m Table 1 Flexible riser input data The water depth is 243 meters and the catenary length from the platform to the touch ...
... Wave amplitude Wave period Surge amplitude - vessel = 203.2 mm = 259. mm = 417 m = 243 m = 12.9 m = 10.8 s = 10. m Table 1 Flexible riser input data The water depth is 243 meters and the catenary length from the platform to the touch ...
Contents
FLOATING PRODUCTION SYSTEMS | 1 |
Semisubmersible Floating Production for the Gulf of Mexico | 13 |
OFFSHORE MECHANICS | 23 |
Copyright | |
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adsorber amplitude analysis angle Arctic Engineering axial bending buoy buoyancy cable calculated coefficient compliant tower components Conference on Offshore curve damage diameter displacement drag coefficient drilling dynamic effect energy equation equipment fatigue Figure finite element flexible floating production flow function horizontal hydrodynamic installation jacket kips length linear load marine mass matrix maximum measured Mechanics and Arctic method mode mode shapes model tests modulus mooring line mooring system motion natural frequency nonlinear obtained Offshore Mechanics Offshore Technology Conference operation parameters performance pile pipe pipe materials pipeline platform polyester pressure production riser random wave ratio response rope rotation RPIT shear shear modulus shear strength shown in Fig simulation soil static stiffness strength stress structure subsea surface syntactic foam turbine uranium vane velocity vertical vessel water depth wave forces wave height wave power weight wellhead wire