On the low-frequency hydrodynamic damping forces acting on offshore moored vessels
Conference
·
· Proc., Annu. Offshore Technol. Conf.; (United States)
OSTI ID:6192609
Moored floating structures for drilling, production-storage-offloading or other purposes are being installed in ever increasing water depths and in areas where the environmental conditions are also more severe. Such structures, moored permanently in high seas, have to survive safely the most severe weather conditions. Therefore it is of importance to understand the mechanisms which govern the motions and the mooring forces of these facilities. In deep water the mooring systems inevitably have soft elasticity characteristics. With the increase in the elasticity of the mooring, the low frequency horizontal motions induced by low frequency second order wave drift forces also become larger. The low frequency resonant motion components completely dominate the horizontal motions and, consequently, also the mooring forces. In order to predict the amplitudes of the low frequency resonant motions the magnitude of the second order wave drift forces and the values of the low frequency hydrodynamic damping must be known. The low frequency hydrodynamic potential damping due to the radiated waves is negligibly small. In general the low frequency damping is determined by viscous effects and a damping caused by the presence of waves. The last mentioned damping is called the wave damping. Dependent on the wave spectra the wave damping can significantly dominate the viscous damping contributions. In this paper results are given of a study of the origin of the wave damping. For this purpose the second order wave drift forces acting on the moored vessel in head waves have been expanded to the low frequency surge displacement and surge velocity. The wave damping can be defined by taking into account the dependence on velocity of the second order wave drift forces. To verify the results, model experiments were carried out in which the velocity dependent second order wave drift forces were determined.
- Research Organization:
- Netherlands Ship Model Basin
- OSTI ID:
- 6192609
- Report Number(s):
- CONF-8405208-
- Conference Information:
- Journal Name: Proc., Annu. Offshore Technol. Conf.; (United States) Journal Volume: 3
- Country of Publication:
- United States
- Language:
- English
Similar Records
Mooring system optimization with application to a weather vane ship
Horizontal motions of an SPM tanker under alternative mooring configurations
OC7 phase I: Toward practical sea-state-dependent modeling of hydrodynamic viscous drag and damping
Conference
·
Sat Dec 30 23:00:00 EST 1995
·
OSTI ID:194705
Horizontal motions of an SPM tanker under alternative mooring configurations
Journal Article
·
Tue Oct 31 23:00:00 EST 1995
· Journal of Offshore Mechanics and Arctic Engineering
·
OSTI ID:175946
OC7 phase I: Toward practical sea-state-dependent modeling of hydrodynamic viscous drag and damping
Journal Article
·
Wed Jun 11 00:00:00 EDT 2025
· Ocean Engineering
·
OSTI ID:2574684
Related Subjects
42 ENGINEERING
420206 -- Engineering-- Mining & Drilling Equipment & Facilities-- (1980-1989)
423000* -- Engineering-- Marine Engineering-- (1980-)
AMPLITUDES
DAMPING
DEPTH
DIMENSIONS
DRILLING
ELASTICITY
FLUID MECHANICS
FREQUENCY DEPENDENCE
HYDRODYNAMICS
INSTALLATION
MECHANICAL PROPERTIES
MECHANICS
MOORINGS
OFFSHORE DRILLING
OFFSHORE PLATFORMS
PRODUCTION
RESONANCE
STORAGE
TENSILE PROPERTIES
UNLOADING
VELOCITY
VISCOSITY
WAVE FORCES
WEATHER
420206 -- Engineering-- Mining & Drilling Equipment & Facilities-- (1980-1989)
423000* -- Engineering-- Marine Engineering-- (1980-)
AMPLITUDES
DAMPING
DEPTH
DIMENSIONS
DRILLING
ELASTICITY
FLUID MECHANICS
FREQUENCY DEPENDENCE
HYDRODYNAMICS
INSTALLATION
MECHANICAL PROPERTIES
MECHANICS
MOORINGS
OFFSHORE DRILLING
OFFSHORE PLATFORMS
PRODUCTION
RESONANCE
STORAGE
TENSILE PROPERTIES
UNLOADING
VELOCITY
VISCOSITY
WAVE FORCES
WEATHER