1.
S. Burmester, Gueydon; El Moctar, B
Surge Decay Simulations of a Semi-Submersible Floating Offshore Wind Turbine Conference
20th Numerical Towing Tank Symposium (NuTTS), Wageningen, The Netherlands, 2017.
@conference{Burmester2017,
title = {Surge Decay Simulations of a Semi-Submersible Floating Offshore Wind Turbine},
author = {Burmester, S., Gueydon, S., Vaz, G. and El Moctar, B},
url = {http://www.marin.nl/web/Publications/Publication-items/Surge-Decay-Simulations-of-a-SemiSubmersible-Floating-Offshore-Wind-Turbine.htm},
year = {2017},
date = {2017-10-03},
booktitle = {20th Numerical Towing Tank Symposium (NuTTS), Wageningen, The Netherlands},
abstract = {The OC5 (Offshore Code Comparison, Collaboration, Continued, with Correlation) project was focused on the validation of numerical simulations of the DeepCwind semi-submersible floating wind turbine with experimental data obtained from physical tests performed at the facilities of MARIN. In this paper the focus lies on the prediction of the hydrodynamic damping for surge motion. It is assumed that the hydrodynamic damping consists of wave radiation damping, viscous damping and drag of the mooring lines. The viscous damping cannot be predicted by potential flow based methods. On these grounds, the viscous flow solver ReFRESCO is used to simulate the surge decay test of the OC5 semi-submersible floating wind turbine. There are many mooring models available with lots of different properties. Dynamic mooring models are needed to account for the drag of the mooring lines moving in water. For this work the moorings are considered with a linear stiffness matrix in the equations of motion, i.e. no drag of the mooring lines is considered in the current study. Nevertheless, several surge decay simulations are performed to understand the effects of scaling and wave radiation on the hydrodynamic damping. Numerical results are compared with the above mentioned experimental data.},
keywords = {},
pubstate = {published},
tppubtype = {conference}
}
The OC5 (Offshore Code Comparison, Collaboration, Continued, with Correlation) project was focused on the validation of numerical simulations of the DeepCwind semi-submersible floating wind turbine with experimental data obtained from physical tests performed at the facilities of MARIN. In this paper the focus lies on the prediction of the hydrodynamic damping for surge motion. It is assumed that the hydrodynamic damping consists of wave radiation damping, viscous damping and drag of the mooring lines. The viscous damping cannot be predicted by potential flow based methods. On these grounds, the viscous flow solver ReFRESCO is used to simulate the surge decay test of the OC5 semi-submersible floating wind turbine. There are many mooring models available with lots of different properties. Dynamic mooring models are needed to account for the drag of the mooring lines moving in water. For this work the moorings are considered with a linear stiffness matrix in the equations of motion, i.e. no drag of the mooring lines is considered in the current study. Nevertheless, several surge decay simulations are performed to understand the effects of scaling and wave radiation on the hydrodynamic damping. Numerical results are compared with the above mentioned experimental data.
2017
S. Burmester, Gueydon; El Moctar, B
Surge Decay Simulations of a Semi-Submersible Floating Offshore Wind Turbine Conference
20th Numerical Towing Tank Symposium (NuTTS), Wageningen, The Netherlands, 2017.
Abstract | Links | BibTeX | Tags: DeepCwind, OC5, semi-submersible floating wind turbine, validation of numerical simulations
@conference{Burmester2017,
title = {Surge Decay Simulations of a Semi-Submersible Floating Offshore Wind Turbine},
author = {Burmester, S., Gueydon, S., Vaz, G. and El Moctar, B},
url = {http://www.marin.nl/web/Publications/Publication-items/Surge-Decay-Simulations-of-a-SemiSubmersible-Floating-Offshore-Wind-Turbine.htm},
year = {2017},
date = {2017-10-03},
booktitle = {20th Numerical Towing Tank Symposium (NuTTS), Wageningen, The Netherlands},
abstract = {The OC5 (Offshore Code Comparison, Collaboration, Continued, with Correlation) project was focused on the validation of numerical simulations of the DeepCwind semi-submersible floating wind turbine with experimental data obtained from physical tests performed at the facilities of MARIN. In this paper the focus lies on the prediction of the hydrodynamic damping for surge motion. It is assumed that the hydrodynamic damping consists of wave radiation damping, viscous damping and drag of the mooring lines. The viscous damping cannot be predicted by potential flow based methods. On these grounds, the viscous flow solver ReFRESCO is used to simulate the surge decay test of the OC5 semi-submersible floating wind turbine. There are many mooring models available with lots of different properties. Dynamic mooring models are needed to account for the drag of the mooring lines moving in water. For this work the moorings are considered with a linear stiffness matrix in the equations of motion, i.e. no drag of the mooring lines is considered in the current study. Nevertheless, several surge decay simulations are performed to understand the effects of scaling and wave radiation on the hydrodynamic damping. Numerical results are compared with the above mentioned experimental data.},
keywords = {DeepCwind, OC5, semi-submersible floating wind turbine, validation of numerical simulations},
pubstate = {published},
tppubtype = {conference}
}
The OC5 (Offshore Code Comparison, Collaboration, Continued, with Correlation) project was focused on the validation of numerical simulations of the DeepCwind semi-submersible floating wind turbine with experimental data obtained from physical tests performed at the facilities of MARIN. In this paper the focus lies on the prediction of the hydrodynamic damping for surge motion. It is assumed that the hydrodynamic damping consists of wave radiation damping, viscous damping and drag of the mooring lines. The viscous damping cannot be predicted by potential flow based methods. On these grounds, the viscous flow solver ReFRESCO is used to simulate the surge decay test of the OC5 semi-submersible floating wind turbine. There are many mooring models available with lots of different properties. Dynamic mooring models are needed to account for the drag of the mooring lines moving in water. For this work the moorings are considered with a linear stiffness matrix in the equations of motion, i.e. no drag of the mooring lines is considered in the current study. Nevertheless, several surge decay simulations are performed to understand the effects of scaling and wave radiation on the hydrodynamic damping. Numerical results are compared with the above mentioned experimental data.