Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 2; Volume 7, Part 2American Society of Mechanical Engineers, 1988 - Arctic regions |
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Page 15
lencies CATCHMENT REGIONS OF MULTIPLE DYNAMIC RESPONSES IN NONLINEAR PROBLEMS OF OFFSHORE MECHANICS L. N. Virgin and ... of the basic concepts of nonlinear dynamics theory that will be called upon in the subsequent applications ( 1 ) .
lencies CATCHMENT REGIONS OF MULTIPLE DYNAMIC RESPONSES IN NONLINEAR PROBLEMS OF OFFSHORE MECHANICS L. N. Virgin and ... of the basic concepts of nonlinear dynamics theory that will be called upon in the subsequent applications ( 1 ) .
Page 162
Steady Breakers : Theory The vertical and horizontal force equilibria of the breaker lead to : b Payo dx + srdy = 0 0 { ( Pegh + Payn ) tane – 1 } dx = 0 = = Neglecting dynamic effects leads to a very simple hydrostatic theory in which ...
Steady Breakers : Theory The vertical and horizontal force equilibria of the breaker lead to : b Payo dx + srdy = 0 0 { ( Pegh + Payn ) tane – 1 } dx = 0 = = Neglecting dynamic effects leads to a very simple hydrostatic theory in which ...
Page 339
ABSTRACT The dynamic behavior of marine vehicles in extreme sea states is a matter of great concern following some recent and dramatic mishaps . The complex problem of its prediction can be approached from the study , yet of broader ...
ABSTRACT The dynamic behavior of marine vehicles in extreme sea states is a matter of great concern following some recent and dramatic mishaps . The complex problem of its prediction can be approached from the study , yet of broader ...
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Contents
HYDRODYNAMIC FORCESI | 1 |
Hydrodynamic Forces on a Floating Cylinder in Waves of Finite Depth | 23 |
Wave Load Estimation in Deep Water as Affected by Wave Period Errors | 33 |
Copyright | |
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acting amplitude analysis angle applied approximately assumed body boundary breaker breaking calculated coefficient compared comparison component computed considered corresponding cylinder damping density dependent depth determined diameter direction distribution drag drift force dynamic effects elevation energy Engineering equation estimated excitation experimental experiments expressed field Figure flow fluid free surface frequency function given horizontal hydrodynamic incident increase integral irregular length linear load mass maximum mean measured Mechanics method motion obtained Ocean Offshore oscillation parameters period phase potential predicted present pressure probability problem range ratio region regular waves relative Research respectively response second order shear ship shown shows simulation solution spectra spectrum speed structure surface Table theory values velocity vertical vortex wave drift wave forces wave height wind