Add to ORKGThe paper presents a comparison between empirical and numerical quadratic transfer functions (QTFs) of the horizontal wave drift loads on the INO WINDMOOR floating wind turbine. The empirical QTFs are determined from cross bi-spectral analysis of model test data obtained in an ocean basin. Validation of the identified QTF is provided by comparing low frequency motions reconstructed from the empirical QTF with measurements. The numerical QTFs are calculated by a panel code that solves the wave-structure potential flow problem up to the second order. Systematic comparisons between numerical and empirical QTFs allows identification of tendencies of empirical QTFs and limitations of the second order potential flow predictions. The study is limi...
Typescript (photocopy).Experimental measurements of the surge drift motion of a soft-moored barge in...
Previous research into floating offshore wind turbines consistently shows some manner of discrepancy...
This paper presents the algorithm of a computationally efficient and reliable time-domain numerical ...
Second-order wave loads on a floating structure may excite resonance phenomena, such as slow-drift o...
Various types of floaters have been proposed to support floating offshore wind turbines. The bulk of...
In the EU H2020 project LIFES50+, a 1:36 scaled model test campaign was carried out for the NAUTILUS...
In a severe sea state, nonlinear wave loads can excite resonant responses of floating wind turbines ...
To better access the abundant offshore wind resource, efforts across the world are being undertaken ...
The paper presents realistic horizontal wave drift force coefficients and low frequency damping coef...
A method is followed in the present analysis to estimate realistic surge and sway wave drift force c...
Reliable predictions of the aero-and hydrodynamic loads acting on floating offshore wind turbines ar...
The EU Horizon 2020 project COREWIND (COst REduction and increase performance of floating WIND techn...
There are many advantages of floating wind turbines in deep waters, however, there are also signific...
AbstractThis work aims at assessing the influence of water depth on the potential flow solution for ...
Hydrodynamic model tests and numerical simulations may be combined in a complementary manner during ...
Typescript (photocopy).Experimental measurements of the surge drift motion of a soft-moored barge in...
Previous research into floating offshore wind turbines consistently shows some manner of discrepancy...
This paper presents the algorithm of a computationally efficient and reliable time-domain numerical ...
Second-order wave loads on a floating structure may excite resonance phenomena, such as slow-drift o...
Various types of floaters have been proposed to support floating offshore wind turbines. The bulk of...
In the EU H2020 project LIFES50+, a 1:36 scaled model test campaign was carried out for the NAUTILUS...
In a severe sea state, nonlinear wave loads can excite resonant responses of floating wind turbines ...
To better access the abundant offshore wind resource, efforts across the world are being undertaken ...
The paper presents realistic horizontal wave drift force coefficients and low frequency damping coef...
A method is followed in the present analysis to estimate realistic surge and sway wave drift force c...
Reliable predictions of the aero-and hydrodynamic loads acting on floating offshore wind turbines ar...
The EU Horizon 2020 project COREWIND (COst REduction and increase performance of floating WIND techn...
There are many advantages of floating wind turbines in deep waters, however, there are also signific...
AbstractThis work aims at assessing the influence of water depth on the potential flow solution for ...
Hydrodynamic model tests and numerical simulations may be combined in a complementary manner during ...
Typescript (photocopy).Experimental measurements of the surge drift motion of a soft-moored barge in...
Previous research into floating offshore wind turbines consistently shows some manner of discrepancy...
This paper presents the algorithm of a computationally efficient and reliable time-domain numerical ...