Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volumes 1-2American Society of Mechanical Engineers, 1990 - Arctic regions |
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Page 132
... cause a strong steady circulating flow . In the presence of incident velocity of fluid particle , this circulation causes transverse forces to the incident flow . This is well known as Magnus Effect in potential flow theory . These ...
... cause a strong steady circulating flow . In the presence of incident velocity of fluid particle , this circulation causes transverse forces to the incident flow . This is well known as Magnus Effect in potential flow theory . These ...
Page 132
... cause a strong steady circulating flow . In the presence of incident velocity of fluid particle , this circulation causes transverse forces to the incident flow . This is well known as Magnus Effect in potential flow theory . These ...
... cause a strong steady circulating flow . In the presence of incident velocity of fluid particle , this circulation causes transverse forces to the incident flow . This is well known as Magnus Effect in potential flow theory . These ...
Page 278
... Cause - Consequence Analysis are connected as shown in Figure 3.2 . The cause analysis is for assessing causes of the top event and for calculating the probability that the top event should occur . The consequence analysis results in a ...
... Cause - Consequence Analysis are connected as shown in Figure 3.2 . The cause analysis is for assessing causes of the top event and for calculating the probability that the top event should occur . The consequence analysis results in a ...
Contents
Simulation of Hurricane Seas in a Multidirectional Wave Basin | 17 |
9 | 38 |
27 | 45 |
Copyright | |
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added mass amplitude analysis array calculated results circular cylinder cosh crane ship crest damping coefficient density directional wave displacement distribution domain drag coefficient drag force dynamic effect Engineering equation estimated experimental results flow fluid force coefficients forces acting forward speed free surface Green's function heave horizontal hydrodynamic hydrodynamic forces incident wave irregular Kc number lift force linear load low-frequency matrix maximum measured method mooring line motion nonlinear obtained offshore structures oscillation parameters pile potential theory predicted pressure random ratio Rayleigh distribution regular waves response Sarpkaya second-order semisubmersible ship motions shown in Figure simulation solution spectra spectral density spectrum spreading function surge tanker transfer function vector velocity potential vertical vessel vortex vortex shedding vortices water depth wave amplitude wave component wave drift wave force wave frequency wave groups wave height wave number wave period wave power