Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volumes 1-2American Society of Mechanical Engineers, 1992 - Arctic regions |
From inside the book
Results 1-3 of 84
Page 30
... DIRECTIONS AND DIRECTIONAL SPREADING דז 101 Figure 9 shows wave energies , wave directions , and wind direction for the hours before 1200 UTC , January 18 , 1988. Most of the time , the mean wave directions ( a , ) and the principal wave ...
... DIRECTIONS AND DIRECTIONAL SPREADING דז 101 Figure 9 shows wave energies , wave directions , and wind direction for the hours before 1200 UTC , January 18 , 1988. Most of the time , the mean wave directions ( a , ) and the principal wave ...
Page 31
... DIRECTIONS , AND WAVE DIRECTIONS FOR SEVERAL HOURS BEFORE JAN88 CHARACTERISTICS OF DIRECTIONAL WAVE SPECTRA MEASURED AT JAPAN SEA Yutarou. M2 / Hz M2 / Hz DEGREES 360 a2 al 180 60 88 20.00 10.00- 0.00 360 185 10 50.00 M Hs = 3.7 WIND ...
... DIRECTIONS , AND WAVE DIRECTIONS FOR SEVERAL HOURS BEFORE JAN88 CHARACTERISTICS OF DIRECTIONAL WAVE SPECTRA MEASURED AT JAPAN SEA Yutarou. M2 / Hz M2 / Hz DEGREES 360 a2 al 180 60 88 20.00 10.00- 0.00 360 185 10 50.00 M Hs = 3.7 WIND ...
Page 185
... direction = 0 deg , Wind direction = 90 deg , Current direction = 45 deg Table : 6 Effect of Wind Velocity Wind Velocity SURGE ( M ) ( m / sec ) OSCILL MEAN BUOY MOTIONS SHIP MOTIONS MOORING FORCE ( KN ) 10 0.79 5.56 1.73 SWAY ( M ) ...
... direction = 0 deg , Wind direction = 90 deg , Current direction = 45 deg Table : 6 Effect of Wind Velocity Wind Velocity SURGE ( M ) ( m / sec ) OSCILL MEAN BUOY MOTIONS SHIP MOTIONS MOORING FORCE ( KN ) 10 0.79 5.56 1.73 SWAY ( M ) ...
Contents
OCEAN WAVES AND CURRENT | 1 |
HYDRODYNAMIC FORCES | 69 |
17 | 90 |
Copyright | |
29 other sections not shown
Other editions - View all
Common terms and phrases
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