The power performance of an offshore floating wind turbine in platform pitching motion

摘要

The platform pitching motion of the Offshore Floating Wind Turbine (OFWT) introduces an additional wind profile to the rotor, which may significantly impact the power performance of the OFWT. In this paper, the power performance of an OFWT in platform pitching motion is investigated using the Free Vortex Method (FVM). Firstly, the pitching and non-pitching cases are compared. Then, the power performance of the OFWT in pitching motions with different amplitudes and frequencies is investigated at the design point (tip speed ratio lambda = 7). Afterwards, the reduced frequency k is proposed to integrate the influences of the platform pitching amplitude and frequency. The power performance curves of the pitching OFWT are derived as functions of lambda and k in the whole operating region. Results show that as k increases, the mean power output decreases at low lambda but increases at high lambda. The mean power coefficient declines with the increase of k. The power variation increases with the increases of lambda and k. To make up the loss of the mean power coefficient and to mitigate the side effects resulted from the power variation, advanced control strategies and platforms with good motion performances should be developed for OFWTs. (C) 2018 Elsevier Ltd. All rights reserved.