Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 10American Society of Mechanical Engineers, 1991 - Arctic regions |
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Page 29
... maximum fluid velocity , and the Keulegan- Carpenter number , which is the product of the maximum fluid velocity and the period of fluid oscillation divided by the diameter of the structural member past which the fluid is flowing ...
... maximum fluid velocity , and the Keulegan- Carpenter number , which is the product of the maximum fluid velocity and the period of fluid oscillation divided by the diameter of the structural member past which the fluid is flowing ...
Page 97
... maximum horizontal velocity of water particle which is perpendicular to the cylinder ; According to the definition of KC in Eq . ( 14 ) , the KC number is a function of vertical coordinate Z. It means that KC number is different at ...
... maximum horizontal velocity of water particle which is perpendicular to the cylinder ; According to the definition of KC in Eq . ( 14 ) , the KC number is a function of vertical coordinate Z. It means that KC number is different at ...
Page 251
... maximum hawser line tensions in transient and steady - state conditions for varying incident angles of wave , wind and current are summarised in Table : 1. As can be seen from Table : 1 the maximum steady yaw angle of the tanker occurs ...
... maximum hawser line tensions in transient and steady - state conditions for varying incident angles of wave , wind and current are summarised in Table : 1. As can be seen from Table : 1 the maximum steady yaw angle of the tanker occurs ...
Contents
A Study on the Stability Criteria of Semisubmersibles | 4 |
Sharan and Praveen Kalra | 6 |
CASE HISTORIES | 7 |
Copyright | |
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added mass amplitude analysis approximately average boundary condition boundary layer cable calculated circular cylinder components computed crest damping coefficient damping ratio density diffraction dimensionless displacement drag coefficient dynamic effects Ekofisk estimates experimental Figure first-order floating fluid force coefficients free surface frequency domain Green function heave horizontal hydrodynamic hydrodynamic forces incident wave inline force integral equation irregular lift force linear loads low frequency low-frequency surge maximum mean drift forces measured method mooring motion natural frequency nonlinear obtained Offshore Technology open boundary oscillation oscillatory flow parameters phase velocity platform predicted pressure random wave ratio regular waves Reynolds number Sarpkaya second order second-order wave shown simulation solitary waves solution spectral spectrum standard deviation surge response tank tanker tests transfer function transverse values velocity potential vertical vortex vortices wave damping wave drift damping wave elevation wave forces wave height wave-current