Proyectos CARTIF
D-HYDROFLEX
Soluciones digitales para mejorar la sostenibilidad y el potencial de flexibilidad de los activos hydropower
Descripción
D-HYFROFLEX busca investigar en innovaciones tecnológicas en plantas hidroeléctricas en busca de la mejora de eficiencia y sostenibilidad y la competitividad hidroeléctrica en los mercados eléctricos modernos. Dentro del proyecto se va a desarrollar herramientas de renovación digital de las plantas hidroeléctricas actuales basadas en sensores, gemelos digitales, algortimos de inteligencia artificial, modelado de hidrolizadores, procesado de imágenes.
Los pilares centrales del proyecto son: 1) los gemelos digitales de la presa y maquinaria, el clima, la predicción de las corrientes de agua y ciberseguridad, 2) flexibilidad mediante la coordinación entre el almacenamiento de hidrógeno y la operación de una planta fotovoltaica, 3) sostenibilidad, biodiversidad y problemas ambientales.
Objetivos
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- Investigación en tecnologías basadas en sensores y soluciones digitales para plantas hidroeléctricas.
- Aumento de la flexibilidad hydroeléctrica y la toma de decisiones en mercados eléctricos modernos.
Acciones
- Responsable del desarrollo de algoritmos de mantenimiento predictivo y control.
- Testeo del mantenimiento predictivo.
- Predicción de la generación energética.
- Desarrollo de técnicas de control para aumentar la flexibilidad de las plantas hidroeléctricas y maximizar los beneficios económicos procedentes de la operación de la planta.
- Responsable de la implementación y evaluación de los desarrollos.
Resultados esperados
- Algoritmo de mantenimiento predictivo de plantas hidroeléctricas.
- Algoritmo de control de plantas hidroeléctricas.
Línea I+D
- Investigación en algoritmos de control avanzado para la planificación óptima de redes energéticas híbridas (sector coupling), dsitribuidas y con almacenamiento.
Socios
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Horizonte Europa
Presupuesto Total: 4.038.518,56 €
Presupuesto CARTIF: 310.000 €
Financiación CARTIF: 310.00 €
Duración: 01/09/2023 – 31/08/2026
Responsable
Paula Hernamperez Manso
División de Energía
Networking
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