TY - RPRT
T1 - Active Vibration Control of a Monopile Offshore Structure
T2 - part one - pilot project
AU - Nielsen, Søren R. K.
AU - Kirkegaard, Poul Henning
N1 - PDF for print: 24 pp.
PY - 1996
Y1 - 1996
N2 - In the Danish part of the North Sea it has been found that marginal fields can be exploited using monopile offshore platforms which present significant advantages with respect to the costs involved in fabrication and installation and can therefore tip the economic balance favourably. Monopile platforms have been developed for approximately 35 m water depth and to be remotely operated. However, there has been recently been a wish to use the monopile concept on 75 m water depth.
AB - In the Danish part of the North Sea it has been found that marginal fields can be exploited using monopile offshore platforms which present significant advantages with respect to the costs involved in fabrication and installation and can therefore tip the economic balance favourably. Monopile platforms have been developed for approximately 35 m water depth and to be remotely operated. However, there has been recently been a wish to use the monopile concept on 75 m water depth.
KW - Active Vibration Control
KW - Wave Induced Vibrations
KW - Monopile Offshore Structures
KW - Boundary Layer Control
KW - Active Vibration Control
KW - Wave Induced Vibrations
KW - Monopile Offshore Structures
KW - Boundary Layer Control
M3 - Report
T3 - Fracture and Dynamics
BT - Active Vibration Control of a Monopile Offshore Structure
PB - Dept. of Building Technology and Structural Engineering, Aalborg University
CY - Aalborg
ER -