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Short-term damping estimation for time-varying vibrating structures in nonstationary operating conditions

Kristian Ladefoged Ebbehøj, Konstantinos Tatsis, P. Couturier, Jon Juel Thomsen, Eleni Chatzi

2023Mechanical Systems and Signal Processing13 citationsDOIOpen Access PDF

Abstract

Various structures exhibit time-varying modal properties driven by short-term variability of environmental and operational conditions, which can cause considerable short-term variations in the modal characteristics, and modal damping, in particular. This study focuses on short-term damping estimation based on operational response measurements, for which a Gaussian process time-dependent auto-regressive moving average time series model is proposed. The model coefficients are represented by basis functions which express dependence on influencing environmental and operational variables, to account for various phenomena driving the time-varying nature of the modal characteristics. The method is verified by estimating short-term damping from the response of a simulated two-mode model. The applicability of the method for more complex cases is demonstrated by estimating the short-term damping of a multi-megawatt wind turbine in operation (and during an extreme wind gust) by means of its simulated edgewise blade response. The results demonstrate that the proposed method offers an enabling approach towards short-term damping and natural frequency estimation based on response measurements.

Topics & Concepts

Term (time)ModalOperational Modal AnalysisControl theory (sociology)Mode (computer interface)TurbineNatural frequencySeries (stratigraphy)Modal analysisWind speedDamping ratioEngineeringGaussianVibrationComputer scienceStructural engineeringAcousticsPhysicsFinite element methodMeteorologyMaterials scienceGeologyMechanical engineeringControl (management)Quantum mechanicsOperating systemPolymer chemistryArtificial intelligencePaleontologyStructural Health Monitoring TechniquesWind and Air Flow StudiesHydraulic and Pneumatic Systems