The overturning moment demand obtained from time history analysis is shown in Figure 3 b) as a function of normalized period (pulse period normalized by the fundamental period of the structure). The results indicate a strong dependence of overturning moment on the normalized period. The maximum overturning moment is around 325 MNm which is close to what is reported in other studies [5]. The values exceed moment demands of extreme wind loads previously reported as 98 MNm based on extensive simulations [3], it is even higher than the wind load reported by NREL [4] when using extreme load factors of 1.35 where a maximum overturning moment demand of 153 MNm was reported. These results indieate that the earthquake loads may be design-driving loads for large wind turbines and particularly in the near-fault region. The results also indicate that the most critical ground motions for the wind turbines of this type are near-fault earthquakes with moment magnitude in the range 6.5 to 6.9. it seems that seismic loads due to near-fault ground motions are the largest when the pulse period is between about 0.5 to 1.5 times the fundamental period of the structure. It can be observed from Figure 3 a) that the pulse period is, on the average, close to the fundamental period of the structure in the second magnitude bin, which also explains the higher demand due to earthquakes in this bin. The average overturning moment demands in each bin are shown in Figure 3 b). If response spectralshapes from EC8 scaled with PGA of eachground motion is used, the results vary significantly frorn those obtained by time history analysis. For earthquakes that have a moment magnitude larger than 6.5, the EC8 spectra shows serious underestimation of base moment demand. In conclusion, the results indicate that the EC8 model is not suitable to evaluate seismic action on tall wind turbine towers. This is due to the inability of the model to account for long-period energy content in near-fault ground motions. The RR2011 model was found, on the average, to represent the results obtained from time history analysis very well. It is observed that response spectral analysis using tlie SRSS combination rule gives satisfactory results as long as a proper response spectrum is used. More details on the models and the results can be found in Sigurðsson 2015) [8] . References [1] Bir. G.. S Jonkman. J. (2008). Modal dynamics of large wind turbines with different support structures. In ASME 2008 27th International Conference on Offshore Mechanics and Arctic Engineering (pp. 669-679). American Society of Mechanical Engineers. [2] Butterfield. S.. Musial. W.. fi Scott. G. (2009). Definition of a 5-MW reference wind turbine for offshore system development. [3] Fogle. J.. Agarwal. P.. fi Manuel, L. (2008). Towards an improved understanding of statistical extrapolation for wind turbine extreme loads. Wind Energy, 11(6). 613. [4] Jonkman. J. M. (2007). Dynamics modeling and loads analysis of an offshore floating wind turbine. ProOuest. [5] Prowell. I. (2011). An experimental and numerical study of wind turbine seismic behavior. [6] Ris0 (2002). Guidelines for Design of Wind Turbines. Det Norske Veritas fi Wind Energy Department of Ris0 National Laboratory. [7] Rupakhety, R., fi Sigbjörnsson. R. (2011). Can simple pulses adequately represent near-fault ground motions? Joumal of Earthquake Engineering, 15(8), 1260-1272. [8] Sigurðsson. G. Ö. (2015). Seismic response of wind turbine structures in the near-fault region. MSc. Thesis. University of lceland. Iceland. [9] Standard. B. (2005). Eurocode 8= Design of structures for earthquake resistance. 10] Wind. G. L. (2005). Guideline for the Certification of Offshore Wind Turbines. Germanischer Lloyd Industrial Services GmbH.

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