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Comparison of shell and solid finite element models for the static certification tests of a 43 m wind turbine blade
Peeters, M.; Santo, G.; Degroote, J.; Van Paepegem, W. (2018). Comparison of shell and solid finite element models for the static certification tests of a 43 m wind turbine blade. Energies (Basel) 11(6): 1346. https://hdl.handle.net/10.3390/en11061346
In: Energies (Basel). Molecular Diversity Preservation International (MDPI): Basel. ISSN 1996-1073; e-ISSN 1996-1073, more
Peer reviewed article  

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Author keywords
    wind turbine blade; static testing; finite element modelling; solid; shell

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Abstract
    A commercial 43 m wind turbine blade was tested under static loads. During these tests, loads, displacements, and local strains were recorded. In this work, the blade was modeled using the finite element method. Both a segment of the spar structure and the full-scale blade were modeled. In both cases, conventional outer mold layer shell and layered solid models were created by means of an in-house developed software tool. First, the boundary conditions and settings for modeling the tests were explored. Next, the behavior of a spar segment under different modeling methods was investigated. Finally, the full-scale blade tests were conducted. The resulting displacements and longitudinal and transverse strains were investigated. It was found that for the considered load case, the differences between the shell and solid models are limited. Thus, it is concluded that the shell representation is sufficiently accurate.

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