A Fault Detection Technique for Variable-speed Wind Turbines Using Vibrations and Electrical Measurements

Planetary gearbox fault diagnosis is very important for reducing the downtime, maintenance cost, and for improving the safety, reliability, and lifespan of wind turbines. The present work reports the results concluded by long-term experiments to a defected planetary gearbox system, with a transverse cut with a depth of 1.0 mm and thickness of 0.2 mm to simulate the planetary gearbox component crack. For each defect, recordings every 60.0 min were acquired and a total of 7 recordings (∼ 6.0 h of test duration) were resulted until the termination of the test. Fault is assured by increasing the test period to the point of where the remaining metal in the tooth area has enough stress to be in the plastic deformation region. An experimental procedure is developed to assess the severity of the gearbox component fault. Gearbox components faults of cracked planet gear tooth, cracked planet gears carrier, and cracked main bearing inner race were tested under accelerated fault conditions, where a comparative analysis of condition monitoring indicators for various crack detection has been done. The experimental localized fault signals (vibration acceleration signals) were subjected to the same diagnostic techniques such as spectrum comparisons, spectral kurtosis analysis, skewness analysis, and crest factor analysis. The method is validated on a set of seeded localized faults on all gears and components: sun gear, ring gear, etc. The results look promising, where the root mean square value analysis could be a good indicator when compared with the other indicators in terms of early detection and characterization of faults.

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Mppt de Sistemas de Conversão de Energia Eólica Baseados em Pmsg Usando Controle Preditivo

Barros¹,

Mota²,

Barros³

et al. 2015

Eletrônica de Potência

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Resumo -Atualmente, dentre as topologias de sistemas de conversão de energia eólica (SCEE), as baseadas em conversores de potência plenos estão em crescimento, uma vez que este tipo de conversor permite a operação da máquina em largas faixas de velocidade, o que resulta em um melhor aproveitamento da potência disponível no vento. Para este tipo de aplicação utiliza-se principalmente o gerador síncrono de ímã permanente, devido à sua possibilidade de operação em uma larga faixa de velocidade. Se o esquema de conversores é do tipo back-to-back, um conversor do lado da máquina é responsável pelo rastreamento da potência máxima, enquanto o conversor do lado da rede é responsável por controlar as potências ativa e reativa entregues à rede elétrica. Convencionalmente, os dois conversores são controlados por métodos vetoriais baseados em malhas PI. Neste trabalho propõe-se uma estratégia de controle baseada em realimentação de estados em que, a fim de obter precisão, é utilizado o controle preditivo GPC (Generically Predictive Control). Simulações em MATLAB/Simulink para um sistema teste mostram que a estratégia proposta possibilita um controle preciso da velocidade.Palavras-Chave -Controle Preditivo, Energia Eólica, Gerador Síncrono de Ímã Permanente, Rastreamento do Ponto de Máxima Potência. MPPT OF WIND ENERGY CONVERSION SYSTEMS BASED ON PMSG THROUGH PREDICTIVE CONTROLAbstract -Currently, among the wind energy conversion systems topologies, one based on fully-rated power converters is in growth, since this kind of drive allows operation over wide speed ranges, resulting in improved power income from the available wind energy. This application mainly uses permanent magnet synchronous generators, due to its operability on wide range of speeds. When the converters link is of back-toback type, the machine side converter is responsible for maximum power point tracking (MPPT), while the grid side converter is responsible for active and reactive powers delivered to the grid. Conventionally, both

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A Fault Detection Technique for Variable-speed Wind Turbines Using Vibrations and Electrical Measurements

Abstract: -

Cited by 3 publications

References 31 publications

A PLL-based resampling technique for vibration analysis in variable-speed wind turbines with PMSG: A bearing fault case

A PLL-based resampling technique for vibration analysis in variable-speed wind turbines with PMSG: A bearing fault case

Fault detection enhancement in wind turbine planetary gearbox via stationary vibration waveform data

Mppt de Sistemas de Conversão de Energia Eólica Baseados em Pmsg Usando Controle Preditivo

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