Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 14American Society of Mechanical Engineers, 1995 - Arctic regions |
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Page 22
... AMPLITUDE : 8 M. frequencies ( see Longuet - Higgins , 1975 , 1983 ) . The resul- tant joint density needs to be rescaled only by a factor ( A ) to ensure the unit area after truncation . fLH ( a , w ) = fs ( a , w ) L ( A ) ; a , w ...
... AMPLITUDE : 8 M. frequencies ( see Longuet - Higgins , 1975 , 1983 ) . The resul- tant joint density needs to be rescaled only by a factor ( A ) to ensure the unit area after truncation . fLH ( a , w ) = fs ( a , w ) L ( A ) ; a , w ...
Page 142
... amplitude 600 kN and angular frequency w = 0.99 rad / s . This corresponds to a wave amplitude of 1.4 m . For the unconstrained case ( D = 0 ) it is possible to find an analytic solution to the problem , when we assume that the ...
... amplitude 600 kN and angular frequency w = 0.99 rad / s . This corresponds to a wave amplitude of 1.4 m . For the unconstrained case ( D = 0 ) it is possible to find an analytic solution to the problem , when we assume that the ...
Page 468
... amplitude at the point S3 shown in Fig . 9 and Fig . 11 is comparison of calculated frequency response curve of axial strain per wave amplitude at the point S5 . It can be stated that accuracy of calculations is enough . ( j = 1 ~ N ) ...
... amplitude at the point S3 shown in Fig . 9 and Fig . 11 is comparison of calculated frequency response curve of axial strain per wave amplitude at the point S5 . It can be stated that accuracy of calculations is enough . ( j = 1 ~ N ) ...
Contents
OCEAN WAVES | 1 |
Aarsnes | 55 |
VOLUME IA OFFSHORE TECHNOLOGY | 65 |
Copyright | |
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acceleration analysis AXIWAVE biplane blade boundary layer calculated circular cylinder comparison compliant towers components computed corresponding crest criteria damping direction distribution drag drag coefficient dynamic effects Engineering equation estimated experimental Figure filter flow fluid force coefficients Fourier free surface frequency fuzzy given hindcast horizontal velocity hydrodynamic impact force in-line incident wave irregular Islay KC number kinematics lift force linear load Loop Current maximum measured method Morison Myrhaug NewWave non-linear obtained ocean waves Offshore Structures orifice oscillating parameters planetary boundary layer plate platform predicted pressure rad/s random wave ratio regular waves Scatter Parameter sea wave second-order shear stress ship shown simulation spectra surface elevation term tests turbine turbulence values velocity potential vertical Volume I-A Walsh function water depth wave elevation wave energy wave height wave kinematics wave power wave profile wave spectrum wave theory wave train wind