Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 2; Volume 7, Part 2American Society of Mechanical Engineers, 1988 - Arctic regions |
From inside the book
Results 1-3 of 87
Page 164
... shown that the maximum deep water wave steepness , a / λ , reached prior to breaking for both steady and unsteady waves is in the range 0.10-0.11 , see Duncan ( 1983 ) ; Ochi and Tsai ( 1983 ) Schultz et al . ( 1986 ) , in comparison to ...
... shown that the maximum deep water wave steepness , a / λ , reached prior to breaking for both steady and unsteady waves is in the range 0.10-0.11 , see Duncan ( 1983 ) ; Ochi and Tsai ( 1983 ) Schultz et al . ( 1986 ) , in comparison to ...
Page 314
... shown in Figure 8. The difference of the frequencies of two component waves is 1.0 rad / sec , and the horizontal axis Wc is the mean of the two frequencies . The calculation results are performed by DPI method , and the results are ...
... shown in Figure 8. The difference of the frequencies of two component waves is 1.0 rad / sec , and the horizontal axis Wc is the mean of the two frequencies . The calculation results are performed by DPI method , and the results are ...
Page 430
... shown in equation ( 7 ) may be solved by any method for ordinary optimization if different values of d are given . In Reference ( 3 ) , for example , elev- en values of d € [ 0,1 ] are chosen at intervals of 0.1 . As shown in Fig.3 ...
... shown in equation ( 7 ) may be solved by any method for ordinary optimization if different values of d are given . In Reference ( 3 ) , for example , elev- en values of d € [ 0,1 ] are chosen at intervals of 0.1 . As shown in Fig.3 ...
Contents
Catchment Regions of Multiple Dynamic Responses in Nonlinear Problems of Offshore Mechanics | 15 |
OFFSHORE TECHNOLOGY GEOTECHNICAL ENGINEERING | 21 |
Hydrodynamic Forces on a Floating Cylinder in Waves of Finite Depth | 23 |
Copyright | |
36 other sections not shown
Other editions - View all
Common terms and phrases
added mass amplitude analysis approximately biofouling body boundary breaker breaking waves calculated circular cylinder component computed cylinder damping coefficient diameter diffraction domain drag coefficient drag force dynamic effects exciting force experimental Figure fluid force coefficients forces acting free surface function Green function harmonic Hermite polynomial hindcast hydrodynamic hydrodynamic forces ice mass in-line incident wave inertia integral interaction irregular Kc number linear wave theory load lowerhull maximum measured Mechanics and Arctic method nondimensional nonlinear obtained Ocean Offshore Mechanics offshore structures oscillation parameters platform predicted present ratio Rayleigh distribution regular waves response Reynolds number second order second-order semi-submersible platform semisubmersible shear flow shown simulation solution spectra spectral density spectrum superposition principle surface elevation surge motion tests values velocity potential vibrations vortex shedding w₁ water depth wave drift damping wave drift force wave forces wave frequency wave height wave period