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Feasibility study on a strain based deflection monitoring system for wind turbine blades

The bending stiffness of the wind turbine blades has decreased due to the trend of wind turbine upsizing. Consequently, the risk of blades breakage by hitting the tower has increased. In order to prevent such incidents, this study proposes a deflection monitoring system that can be installed to alre...

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Bibliographic Details
Published in:Mechanical systems and signal processing 2017-01, Vol.82, p.117-129
Main Authors: Lee, Kyunghyun, Aihara, Aya, Puntsagdash, Ganbayar, Kawaguchi, Takayuki, Sakamoto, Hiraku, Okuma, Masaaki
Format: Article
Language:English
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Summary:The bending stiffness of the wind turbine blades has decreased due to the trend of wind turbine upsizing. Consequently, the risk of blades breakage by hitting the tower has increased. In order to prevent such incidents, this study proposes a deflection monitoring system that can be installed to already operating wind turbine's blades. The monitoring system is composed of an estimation algorithm to detect blade deflection and a wireless sensor network as a hardware equipment. As for the estimation method for blade deflection, a strain-based estimation algorithm and an objective function for optimal sensor arrangement are proposed. Strain-based estimation algorithm is using a linear correlation between strain and deflections, which can be expressed in a form of a transformation matrix. The objective function includes the terms of strain sensitivity and condition number of the transformation matrix between strain and deflection. In order to calculate the objective function, a simplified experimental model of the blade is constructed by interpolating the mode shape of a blade from modal testing. The interpolation method is effective considering a practical use to operating wind turbines' blades since it is not necessary to establish a finite element model of a blade. On the other hand, a sensor network with wireless connection with an open source hardware is developed. It is installed to a 300W scale wind turbine and vibration of the blade on operation is investigated. •A deflection monitoring system for wind turbine blades including estimation method and hardware configurations are proposed.•The deflection estimation algorithm can be applied to operating wind turbines without establishing finite element models of blades.•The developed system is evaluated and demonstrated with a 300W wind turbine.
ISSN:0888-3270
1096-1216
DOI:10.1016/j.ymssp.2016.05.011