The breaking wave loads on a bottom fixed monopile foundation has been determined in this project with the aid of a Pressure Impulse Method. The pressure impulse method is the integration of pressure bounded by time within the period of a short time scale impact. A model implemented on MATLAB as an m-file was derived for an idealized wave on a cylinder with azimuth limits with relative length and impact height. Some model parameters of interest were investigated for their influence on the behavior of the structure. The pressure impulse is confined in the upper layer in both the CFD and model outcomes, which is connected to the little breaker height proportion. The model outcome depends on an attack of θmax to coordinate with the impulse pre...
Monopile bottom-fixed offshore wind turbines have been in operation for around 30 years, and more ar...
Breaking waves on coastal structures cause high magnitude impact pressures which may be important fo...
Currently, the development of offshore wind energy is mainly in shallow or intermediate water, where...
The breaking wave loads on a bottom fixed monopile foundation has been determined in this project wi...
In this project the breaking wave loads on a bottom fixed monopile has been determined with the use ...
The applicability of pressure-impulse theory is evaluated for predicting wave impact loading magnitu...
The problem of impact pressure distribution on a monopole structure excited by irregular breaking wa...
AbstractThis paper presents the results of an experiment carried out in a wave flume aiming at repro...
Offshore Wind Turbines (OWT) are very attractive candidates for renewable energy production for seve...
Based on large scale experiments theoretical formulae for the load due to breaking wave impact on sl...
International audienceAbstract This work is part of the DIMPACT project that addresses breaking-wave...
Generally the foundations of offshore wind turbines are steel truss structures which are exposed to ...
In this paper, the slamming coefficients on local members of a jacket structure under plunging break...
This thesis is a study of the slamming forces from plunging breaking waves on truss support structur...
Offshore wind turbine substructures consisting of cylindrical members are exposed to highly non-line...
Monopile bottom-fixed offshore wind turbines have been in operation for around 30 years, and more ar...
Breaking waves on coastal structures cause high magnitude impact pressures which may be important fo...
Currently, the development of offshore wind energy is mainly in shallow or intermediate water, where...
The breaking wave loads on a bottom fixed monopile foundation has been determined in this project wi...
In this project the breaking wave loads on a bottom fixed monopile has been determined with the use ...
The applicability of pressure-impulse theory is evaluated for predicting wave impact loading magnitu...
The problem of impact pressure distribution on a monopole structure excited by irregular breaking wa...
AbstractThis paper presents the results of an experiment carried out in a wave flume aiming at repro...
Offshore Wind Turbines (OWT) are very attractive candidates for renewable energy production for seve...
Based on large scale experiments theoretical formulae for the load due to breaking wave impact on sl...
International audienceAbstract This work is part of the DIMPACT project that addresses breaking-wave...
Generally the foundations of offshore wind turbines are steel truss structures which are exposed to ...
In this paper, the slamming coefficients on local members of a jacket structure under plunging break...
This thesis is a study of the slamming forces from plunging breaking waves on truss support structur...
Offshore wind turbine substructures consisting of cylindrical members are exposed to highly non-line...
Monopile bottom-fixed offshore wind turbines have been in operation for around 30 years, and more ar...
Breaking waves on coastal structures cause high magnitude impact pressures which may be important fo...
Currently, the development of offshore wind energy is mainly in shallow or intermediate water, where...