Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 9American Society of Mechanical Engineers, 1990 - Arctic regions |
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Page 109
... flow Let us now consider a flow field y ( x , y ) at a certain time ( the flow field may have been developed by a fluid flowing past a num- ber of structures ) . At the present time one or several of the structures start acceler- ating ...
... flow Let us now consider a flow field y ( x , y ) at a certain time ( the flow field may have been developed by a fluid flowing past a num- ber of structures ) . At the present time one or several of the structures start acceler- ating ...
Page 132
... 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 forces always reduce inertia forces ...
... 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 forces always reduce inertia forces ...
Page 271
... flow due to a pair of vortices rising toward a boundary surface . A spectral method , with transforms in Fourier ... flow field is initially divided into an inviscid outer flow and a viscous inner flow . In [ 4 ] , the outer flow serves ...
... flow due to a pair of vortices rising toward a boundary surface . A spectral method , with transforms in Fourier ... flow field is initially divided into an inviscid outer flow and a viscous inner flow . In [ 4 ] , the outer flow serves ...
Contents
OCEAN WAVES | 1 |
Simulation of Hurricane Seas in a Multidirectional Wave Basin | 17 |
OFFSHORE MECHANICS AND ARCTIC ENGINEERING | 25 |
Copyright | |
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added mass amplitude analysis applied array assumed body boundary calculated circular cylinder coefficient comparison component computed considered constant corresponding crest cylinder damping defined depends depth determined direction distribution domain drag coefficient drift dynamic effect elevation Engineering equation estimated experimental experiments factor field Figure flow fluid forward frequency function given horizontal hydrodynamic incident increase inertia integral irregular Kc number length lift force linear load low-frequency maximum mean measured method moored motion nonlinear obtained Offshore oscillation parameters period pile plate potential predicted presented pressure problem radiation range reference regular waves respectively response second-order ship shown shows simulation solution spectra spectrum speed structure surface surge swing Table theory velocity vertical vessel vortex wave force wave height