Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 15American Society of Mechanical Engineers, 1996 - Arctic regions |
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Page 201
... depth constant profile would be an excellent engineering model in many cases . For the same depth averaged 10 year current ( 0.79 m / s ) , this leads to a reduction of the hydrodynamic loads of approximately 5 % for 16 / 11 - E . For ...
... depth constant profile would be an excellent engineering model in many cases . For the same depth averaged 10 year current ( 0.79 m / s ) , this leads to a reduction of the hydrodynamic loads of approximately 5 % for 16 / 11 - E . For ...
Page 259
... depth . For a floating rectangular section in the finite water depth , the separated region method ( eigenvalue method ) is very useful to predict the hydrodynamic forces on the body . The method has been extended here , so as to apply ...
... depth . For a floating rectangular section in the finite water depth , the separated region method ( eigenvalue method ) is very useful to predict the hydrodynamic forces on the body . The method has been extended here , so as to apply ...
Page 374
... DEPTH : 400 m 345- 340 335 330 325 320- -10 0 10 OPERATIONAL CONDITION BUOY ORBIT WITHOUT EFFECTS OF MOORING LINE DYNAMICS WATER DEPTH : 400 m 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 BUOY SURGE ( m ) FIGURE 15 EFFECT OF ...
... DEPTH : 400 m 345- 340 335 330 325 320- -10 0 10 OPERATIONAL CONDITION BUOY ORBIT WITHOUT EFFECTS OF MOORING LINE DYNAMICS WATER DEPTH : 400 m 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 BUOY SURGE ( m ) FIGURE 15 EFFECT OF ...
Contents
OFFSHORE MECHANICS AND ARCTIC ENGINEERING | 1 |
Structural Mechanics | 31 |
VOLUME IB OFFSHORE TECHNOLOGY | 41 |
Copyright | |
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added mass amplitude analysis angle boundary breakwater buoy calculated coefficient components computed cylinder damping damping ratio deck device displacement drag coefficient drag force drift forces dynamic effect environmental equations factor Figueira da Foz floating breakwater floating structure flow fluid free surface function hawser heave horizontal hydrodynamic incident wave increase inertia length linear maximum method mooring line mooring system natural frequency nonlinear North Sea obtained offshore structures OMAE operations optimal oscillating parameters peak platform predicted pressure pump random waves resonant response Reynolds number riser sensor ship shown in Figure simulation solution spectral spectral density stability surface elevation surge Table tanker tension theory TPM system transmission coefficient turbine values velocity velocity potential verification vertical vessel water depth wave drift wave energy wave forces wave frequency wave height wave loading wave period wave power wind wire rope