Estudo sobre Modelos de Aprendizado de Máquina para Detecção de Falhas em Turbinas Eólicas

Autores/as

  • Danielle Pinna
  • Rodrigo Hamacher
  • Fernando de Sá
  • Sanderson L. Gonzaga de Oliveira
  • Raphael Guerra
  • Kele Belloze
  • Diego Brandão

DOI:

https://doi.org/10.5540/03.2023.010.01.0048

Palabras clave:

Energia Eólica, Aprendizado de Máquina

Resumen

A crescente busca por soluções energéticas renováveis tem trazido destaque para soluções como turbinas eólicas, que são as principais responsáveis pela transformação de energia eólica em elétrica. Assim, o monitoramento, diagnóstico e prognóstico de falhas destas turbinas é fundamental para garantir a produção energética de forma contínua. Estas turbinas são monitorados por sensores e os dados oriundos deste monitoramento podem ser utilizados para criar modelos capazes de detectar estágios iniciais de degradação dos componentes que formam as turbinas, garantindo assim que falhas sejam identificadas rapidamente, reduzindo custos em manutenção. No presente trabalho é apresentada uma breve revisão sobre o assunto, além da aplicação de duas técnicas de aprendizado de máquina em uma base de dados real.

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Biografía del autor/a

Danielle Pinna

PPCIC/CEFET-RJ

Rodrigo Hamacher

PPCIC/CEFET-RJ

Fernando de Sá

PPCIC/CEFET-RJ

Sanderson L. Gonzaga de Oliveira

UNIFESP

Raphael Guerra

UFF

Kele Belloze

PPCIC/CEFET-RJ

Diego Brandão

PPCIC/CEFET-RJ

Citas

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Publicado

2023-12-18

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