Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 11, Part 1American Society of Mechanical Engineers, 1992 - Arctic regions |
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Page 207
... analysis and frequency domain analysis , alone . They require a time domain stochastic analysis , at least for checking and calibration , due to the nonlinear loading and response behaviour . In this paper an efficient procedure for ...
... analysis and frequency domain analysis , alone . They require a time domain stochastic analysis , at least for checking and calibration , due to the nonlinear loading and response behaviour . In this paper an efficient procedure for ...
Page 438
DIFFRACTION THEORY LINEAR ANALYSIS Weight - less springs TIME DOMAIN NON LINEAR ANALYSIS 2000 ! Superimposed motion Complete Structural model Wave and current forces TIME DOMAIN NON LINEAR ANALYSIS Wave forces Hydrodynamic coefficients ...
DIFFRACTION THEORY LINEAR ANALYSIS Weight - less springs TIME DOMAIN NON LINEAR ANALYSIS 2000 ! Superimposed motion Complete Structural model Wave and current forces TIME DOMAIN NON LINEAR ANALYSIS Wave forces Hydrodynamic coefficients ...
Page 488
... ANALYSIS ON SYSTEM Summary . This section deals with the method and approach to conduct a global analysis of Arctic Offshore Gravity Structures . Structures can be designed to take ' direct ' impact of moving ice ( confrontational ) or ...
... ANALYSIS ON SYSTEM Summary . This section deals with the method and approach to conduct a global analysis of Arctic Offshore Gravity Structures . Structures can be designed to take ' direct ' impact of moving ice ( confrontational ) or ...
Contents
OCEAN WAVES AND CURRENT | 1 |
Directional Wave Observations During High Sea States From an NDBC Discus Buoy | 25 |
Vortex Trajectories Around a Circular Cylinder in Oscillatory Plus Mean Flows | 69 |
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added mass added resistance analysis body buoy cable calculated catenary components computed configuration convective cylinder damping ratio density displacement distribution domain drag coefficient drag force drift forces dynamic response effect energy Engineering estimated experimental extreme Figure floating flow fluid force coefficients free surface function Green's function heave motion horizontal hydrodynamic hydrodynamic damping incident wave inertia integral internal wave irregular waves KC number lift force linear load low-frequency damping matrix maximum measured method mode mooring Morison equation nondimensional nonlinear obtained Ocean Ocean Engineering Offshore Technology oscillation parameters peak phase velocity platform pontoon potential prediction Rayleigh Rayleigh distribution region resonant rotation second-order ship shown simulation solitary wave spectra spectrum submerged surge tension tethers values vector velocity velocity potential vertical vibration vortex water depth wave crest wave forces wave frequency wave height wave period Wavenumber wind