Efficient critical design load case identification for floating offshore wind turbines with a reduced nonlinear model

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Matha D, Sandner F, Schlipf D. Efficient critical design load case identification for floating offshore wind turbines with a reduced nonlinear model. In: Journal Of Physics: Conference Series. Oldenburg, Germany; 2014. doi:10.1088/1742-6596/555/1/012069.

Matha, D., Sandner, F., & Schlipf, D. (2014). Efficient critical design load case identification for floating offshore wind turbines with a reduced nonlinear model. In Journal of Physics: Conference Series (Bd. 555). Oldenburg, Germany. http://doi.org/10.1088/1742-6596/555/1/012069 (Original work published oct)

Matha, Denis, Frank Sandner, und David Schlipf. (oct) 2014. „Efficient Critical Design Load Case Identification For Floating Offshore Wind Turbines With A Reduced Nonlinear Model“. In Journal Of Physics: Conference Series. Bd. 555. Oldenburg, Germany. doi:10.1088/1742-6596/555/1/012069.

Matha, Denis, Frank Sandner, und David Schlipf. „Efficient Critical Design Load Case Identification For Floating Offshore Wind Turbines With A Reduced Nonlinear Model“. Journal Of Physics: Conference Series. Vol. 555. Oldenburg, Germany: N.p., 2014.

Matha, D., u. a. „Efficient Critical Design Load Case Identification For Floating Offshore Wind Turbines With A Reduced Nonlinear Model“. oct. Journal Of Physics: Conference Series, 012069, 2014.

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oct
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555
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Oldenburg, Germany

Efficient critical design load case identification for floating offshore wind turbines with a reduced nonlinear model

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