Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volumes 1-2American Society of Mechanical Engineers, 1992 - Arctic regions |
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Page 44
is an inherently nonlinear phenomenon linked to the wave crest . As a result , they determine the probability of breaking based on integration of their distribution for nonlinear crest amplitudes subject to a break- ing criterion based ...
is an inherently nonlinear phenomenon linked to the wave crest . As a result , they determine the probability of breaking based on integration of their distribution for nonlinear crest amplitudes subject to a break- ing criterion based ...
Page 207
... nonlinear loading and response behaviour . In this paper an efficient procedure for time domain nonlinear dynamic response analysis of offshore structures is described . This procedure is demonstrated by an example study of a jack - up ...
... nonlinear loading and response behaviour . In this paper an efficient procedure for time domain nonlinear dynamic response analysis of offshore structures is described . This procedure is demonstrated by an example study of a jack - up ...
Page 349
... nonlinear waves with a vertical source distribution line is useful in calculating the nonlinear drift forces on the fixed or floating bodies , this is because waves scattered from the bodies can pass through the source line without ...
... nonlinear waves with a vertical source distribution line is useful in calculating the nonlinear drift forces on the fixed or floating bodies , this is because waves scattered from the bodies can pass through the source line without ...
Contents
OCEAN WAVES AND CURRENT | 1 |
HYDRODYNAMIC FORCES | 69 |
17 | 90 |
Copyright | |
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added mass amplitude analysis axial behaviour boundary bubble buoy cable calculated Campos Basin coefficients compliant tower components configuration crane vessels cylinder damping model damping ratio developed direction displacement distribution domain drag coefficient drag force dynamic response effect Engineering equation estimated experimental Figure floating flow fluid heave motion hydrodynamic hydrodynamic damping installation interaction internal wave irregular waves Karunakaran length linear load matrix measured method modal mode model testing module natural frequency natural period nondimensional nonlinear obtained Ocean Offshore Structures operations oscillation parameters peak pipe pipeline platform pontoon potential predicted pressure ratio Rayleigh Rayleigh distribution resonant riser rotation second-order semisubmersible ship shown simulation spectra spectrum stiffness Stirling engine subsea surge tank technique tendon tension tethers transfer function values vector velocity velocity potential vertical vessel vibration water depth wave force wave height wave period