Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 16, Part 1American Society of Mechanical Engineers, 1997 - Arctic regions |
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Page 81
... surge direction and then releasing it , in order to measure the decay rate in the time history of the surge motion . By chance , besides the high precision DGPS device to measure the decay trajectory , some of the tests were done in a ...
... surge direction and then releasing it , in order to measure the decay rate in the time history of the surge motion . By chance , besides the high precision DGPS device to measure the decay trajectory , some of the tests were done in a ...
Page 87
... Surge Hull Viscous Damping . The naval architecture studies show that the surge hull viscous drag force ( friction resistance ) is subject to the Reynolds effects when the model test is realized under the Froude law . Depending of model ...
... Surge Hull Viscous Damping . The naval architecture studies show that the surge hull viscous drag force ( friction resistance ) is subject to the Reynolds effects when the model test is realized under the Froude law . Depending of model ...
Page 125
... surge forces acting on the column test sections for the head sea condition . Global Heave Forces 80 1 F1 = { μÑ‚Â ... Surge Forces 400 D 300 Experimental Global Surge ( Head Sea ) Theoretical Global Surge ( Head Sea , JH ) 200 Force ( N ) ...
... surge forces acting on the column test sections for the head sea condition . Global Heave Forces 80 1 F1 = { μÑ‚Â ... Surge Forces 400 D 300 Experimental Global Surge ( Head Sea ) Theoretical Global Surge ( Head Sea , JH ) 200 Force ( N ) ...
Contents
HYDRODYNAMIC FORCES | 1 |
The Irregular Breaking Wave Forces on Vertical Wall | 13 |
Steady Drift Forces and Yaw Moment Due to Waves With Slow Current | 47 |
Copyright | |
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added mass amplitude analysis anchor angle axial stress breakwater cable caisson calculated catenary components computed configuration cylinder damping diameter diffraction displacement domain drag coefficient dynamic effect element Engineering equation evaluation excitation experimental experiments Fieldbus Figure flow fluid FPSO free surface function Green function guidewire heave horizontal hull hydrodynamic incident wave installation integral interaction irregular waves Japan length linear load matrix maximum measured method mode mooring line mooring system motion nonlinear numerical obtained Ocean Offshore Technology ASME oscillation parameters PETROBRAS piles pipe string pitch moment platform predicted present ratio response riser ship shown in Fig simulation sloshing pressure solution speed stress surge tank Technology ASME 1997 tension Tension Leg Platform theory third order tsunami vector velocity potential vertical vessel vortex shedding water depth wave force wave height wave period wave power