%0 Journal Article %A Gueydon, S %A Bachynski, E %A Wang, L %A Jonkman, J %A Alarcón, D %A Amet, E %A Beardsell, A %A Bonnet, P %A Boudet, B %A Brun, C %A Chen, Z %A Féron, M %A Forbush, D %A Galinos, C %A Galvan, J %A Gilbert, P %A Gómez, J %A Harnois, V %A Haudin, F %A Hu, Z %A Dreff, J Le %A Leimeister, M %A Lemmer, F %A Li, H %A Mckinnon, G %A Mendikoa, I %A Moghtadaei, A %A Netzband, S %A Oh, S %A Pegalajar-Jurado, A %A Nguyen, M Q %A Ruehl, K %A Schünemann, P %A Shi, W %A Shin, H %A Si, Y %A Surmont, F %A Trubat, P %A Qwist, J %A Wohlfahrt-Laymann, S %A Robertson, A N %T OC6 Phase I: Investigating the underprediction of low-frequency hydrodynamic loads and responses of a floating wind turbine %D 2020 * IOP Publishing Ltd %X Phase I of the OC6 project is focused on examining why offshore wind design tools underpredict the response (loads/motion) of the OC5-DeepCwind semisubmersible at its surge and pitch natural frequencies. Previous investigations showed that the underprediction was primarily related to nonlinear hydrodynamic loading, so two new validation campaigns were performed to separately examine the different hydrodynamic load components. In this paper, we validate a variety of tools against this new test data, focusing on the ability to accurately model the low-frequency loads on a semisubmersible floater when held fixed under wave excitation and when forced to oscillate in the surge direction. However, it is observed that models providing better load predictions in these two scenarios do not necessarily produce a more accurate motion response in a moored configuration. %@ 1742-6588 %K Hydrodynamics %K Offshore oil well production %K Torque %K Wind turbines %K Accurate motion %K Floating wind turbines %K Hydrodynamic loads %K Load predictions %K Low-frequency load %K Non-linear hydrodynamics %K Offshore winds %K Wave excitation %K Semisubmersibles doi 10.1088/1742-6596/1618/3/032033 %U http://hdl.handle.net/11556/1007 %~ GOEDOC, SUB GOETTINGEN