Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 18, Part 6American Society of Mechanical Engineers, 1999 - Arctic regions |
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Page 61
... lift force acting on the deck in winds . But there are few studies about lift force of large semisubmersibles . Wind - wave tank experiment on a large semisubmersible in regular progressive waves were conducted . Lift forces and wind ...
... lift force acting on the deck in winds . But there are few studies about lift force of large semisubmersibles . Wind - wave tank experiment on a large semisubmersible in regular progressive waves were conducted . Lift forces and wind ...
Page 66
... lift coefficient of the whole deck ĈLw.D. is So Co ( x ) dx CLW.D. -1.50 L ( 7 ) LIFT FORCE MODEL Lift force model is proposed for estimation of lift forces of large semisubmersibles according to the experimental results . This model ...
... lift coefficient of the whole deck ĈLw.D. is So Co ( x ) dx CLW.D. -1.50 L ( 7 ) LIFT FORCE MODEL Lift force model is proposed for estimation of lift forces of large semisubmersibles according to the experimental results . This model ...
Page 68
... lift force model accurately describe the experimental results and it is shown that this model is effective for estimation of actual lift force distribution of very large semisubmersible . CONCLUSION In the present study , wind - wave ...
... lift force model accurately describe the experimental results and it is shown that this model is effective for estimation of actual lift force distribution of very large semisubmersible . CONCLUSION In the present study , wind - wave ...
Contents
VERY LARGE FLOATING STRUCTURE | 1 |
OMAE99OSU3057 | 9 |
OMAE99OSU3058 | 17 |
Copyright | |
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amplitude analysis angle applied ASME assumed bending body bottom buoy buoyant cable cage calculated coefficient compared component considered construction Copyright cost deck deflection depth developed diameter direction displacement distribution domain dynamic effect elastic element energy Engineering equation estimate experiment experimental Figure fish floating structure flow fluid frame frequency function given grid horizontal hydrodynamic hydroelastic incident wave increases International Japan length lift force linear loading located mass maximum mean measured Mechanics meters method modal mode mooring motion navigation obtained Ocean Offshore operate period pipeline position presented pressure pump Qmax relative represented resonant respectively response robot scale shoreline shown shows significant simulation spectrum surface surge Table tank tension Theseus towed unit University vehicle velocity vertical wave height wind