Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 18, Part 1American Society of Mechanical Engineers, 1999 - Arctic regions |
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Page 171
... diameter of ext . armour : Tendons in external armour : Helix angle in ext . armour : Ext . diameter of int . armour : Tendons in internal armour . Helix angle in int . armour . Inner sheath external diameter : Inner sheath thickness ...
... diameter of ext . armour : Tendons in external armour : Helix angle in ext . armour : Ext . diameter of int . armour : Tendons in internal armour . Helix angle in int . armour . Inner sheath external diameter : Inner sheath thickness ...
Page 192
... diameter d = 2a , the equatorial diameter of the droplet , can be calculated in terms of the corresponding Reynolds number : 3.2 . Laminar Motion The flow over the falling droplet is taken to be laminar when the Reynolds number is ...
... diameter d = 2a , the equatorial diameter of the droplet , can be calculated in terms of the corresponding Reynolds number : 3.2 . Laminar Motion The flow over the falling droplet is taken to be laminar when the Reynolds number is ...
Page 553
... diameter remains almost unaffected between 4 to 7 % allowable offset . Nevertheless , allowing for excursion greater than 7 % of water depth would require the angle with the horizontal plane of the synthetic mooring lines to be less ...
... diameter remains almost unaffected between 4 to 7 % allowable offset . Nevertheless , allowing for excursion greater than 7 % of water depth would require the angle with the horizontal plane of the synthetic mooring lines to be less ...
Contents
HYDRODYNAMIC FORCES | 1 |
OMAE99OFT4071 | 9 |
OMAE99OFT4072 | 19 |
Copyright | |
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amplitude analysis angle applied approach approximately ASME assumed axial boundary buoy buoyancy cable calculated coefficient compared comparison components computed Conference configuration connector considered Copyright cylinder damping defined depending determine developed diameter direction discrete displacement distribution domain drag dynamic effect element Engineering equation experimental experiments expressed falling fatigue Figure floating flow fluid force FPSO frequency function geometry given height horizontal hydrodynamic increase initial International length lift force linear load Marine mass maximum mean measured Mechanics method mode module mooring line motion nonlinear obtained Offshore operation parameters performed period platform position prediction presented pressure problem range relative respectively response riser rope ship shown shows side simulation solution spheres spray stiffness stress structure surface Table tension tests transverse values velocity vertical vessel water depth wave