Descripción del proyecto
Nuevas herramientas para la gestión de activos de aerogeneradores
El acuciante reto europeo del consumo excesivo de energía exige una gestión sostenible de los recursos. Aunque la energía eólica es una de las principales fuentes renovables, la vida útil y la gestión de las instalaciones de aerogeneradores plantean importantes problemas. Las herramientas existentes se han quedado rezagadas con respecto a los avances de la tecnología de los aerogeneradores, lo que ha establecido la inspección visual y la evaluación fuera de línea como algo habitual. Teniendo esto en cuenta, el equipo del proyecto WINDMIL, financiado con fondos europeos, propone un marco inteligente para la supervisión, inspección y evaluación del ciclo de vida de los aerogeneradores. En concreto, se combina tecnología de sensores asequibles, modelización numérica de vanguardia y herramientas de tratamiento de datos para establecer un método global. Mediante la fusión de información sobre la respuesta estructural, la simulación de factores influyentes y el empleo de un marco estocástico, en WINDMIL se aspira a proporcionar un «traje de protección» revolucionario, compuesto por sensores de «hardware» y un paquete de «software» modular.
Objetivo
The excessive energy consumption that Europe is faced with, calls for sustainable resource management and policy-making. Amongst renewable sources of the global energy pool, wind energy holds the lead. Nonetheless, wind turbine (WT) facilities are conjoined with a number of shortcomings relating to their short life-span and the lack of efficient management schemes. With a number of WTs currently reaching their design span, stakeholders and policy makers are convinced of the necessity for reliable life-cycle assessment methodologies. However, existing tools have not yet caught up with the maturity of the WT technology, leaving visual inspection and offline non-destructive evaluation methods as the norm.
This proposal aims to establish a smart framework for the monitoring, inspection and life-cycle assessment of WTs, able to guide WT operators in the management of these assets from cradle-to-grave. Our project is founded on a minimal intervention principle, coupling easily deployed and affordable sensor technology with state-of-the-art numerical modeling and data processing tools. An integrated approach is proposed comprising: (i) a new monitoring paradigm for WTs relying on fusion of structural response information, (ii) simulation of influential, yet little explored, factors affecting structural response, such as structure-foundation-soil interaction and fatigue (ii) a stochastic framework for detecting anomalies in both a short- (damage) and long-term (deterioration) scale.
Our end goal is to deliver a “protection-suit” for WTs comprising a hardware (sensor) solution and a modular readily implementable software package, titled ETH-WINDMIL. The suggested kit aims to completely redefine the status quo in current Supervisory Control And Data Acquisition systems. This pursuit is well founded on background work of the PI within the area of structural monitoring, with a focus in translating the value of information into quantifiable terms and engineering practice.
Ámbito científico
- engineering and technologycivil engineeringstructural engineering
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energywind power
- engineering and technologyenvironmental engineeringnatural resources management
- engineering and technologymechanical engineering
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors
Programa(s)
Régimen de financiación
ERC-STG - Starting GrantInstitución de acogida
8092 Zuerich
Suiza