Scientific-Technical Areas

Thematic lines

The objective of this line is to explore the development of innovative solutions in the wind and photovoltaic sector to ensure, in the medium term, the grid flexibility and stability requirements and to guarantee the security and quality of these services.

Additionally, research is conducted in the development of more inclusive, safe, resilient, and sustainable cities (Smart Cities) by studying energy efficiency, enhancing the integration of renewable energies, optimizing economic performance, and improving habitability by increasing environmental comfort conditions and resilience to climate change.

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Development of models, scenarios and analysis of sustainability of energy technologies and systems

Energy Efficiency in Building Construction

Social research on sustainability, environmental and technological risks

A European Competence Framework for a Low Carbon Economy and Sustainability Through Education
Energy Efficiency in Building Construction

Advanced Grid Interfaces for innovative STorage INtegration
Development of models, scenarios and analysis of sustainability of energy technologies and systems

Wind Power Generation and Grid Integration

Circularidad en la repotenciación de parques eólicos mediante Reutilización, Reciclado, ecodiseño y desarrollo de nuevos materiales Reciclables y reparables
Energy Efficiency in Building Construction

Componentes de Aplicación de elementos estructurales en Edificación Singular y sistemas de Aprovechamiento de Recursos locales e independencia energética
Photovoltaic Power Generation and Grid Integration

El reto de una irradiancia solar cierta, absoluta y trazable
Advanced Materials for Energy and Environmental Applications

Materials for Nuclear Energy

Technologies for Fusion Reactors

Estudio sobre nuevas barreras anti corrosión y permeación
Advanced Materials for Energy and Environmental Applications

Hacia rutas de producción más sostenibles para la fabricación de nuevas células TOPCon Híbridas
Advanced Materials for Energy and Environmental Applications

Knowledge for improving indoor AIR quality and HEALTH
Wind Power Generation and Grid Integration

Large-Scale Testing and Experimentation Facility (TEF) for Assessing, Validating, and Enhancing AI-Powered Next-Generation Energy Solutions
Advanced Materials for Energy and Environmental Applications

Development of models, scenarios and analysis of sustainability of energy technologies and systems

Materials for Energy Storage and Conversion

Materiales grafénicos procedentes de residuos para aplicaciones energéticas renovables I
Photovoltaic Power Generation and Grid Integration

Modelización y Predicción Avanzadas de BIPV
Energy Efficiency in Building Construction

Scientific Computing

Modelling the role of circular economy construction value chains for a carbon-neutral Europe
Advanced Materials for Energy and Environmental Applications

Biochemical Processing

Materials for Energy Storage and Conversion

Obtención de BIOCHAR a partir de bioresiduos de la codigestión anaerobia para la descontaminación del aire
Advanced Materials for Energy and Environmental Applications

POR UNA TECNOLOGÍA FOTOVOLTAICA AMIGABLE DE BAJO IMPACTO AMBIENTAL
Energy Efficiency in Building Construction

Re-naturalización de edificios, patios y caminos escolares para la Adaptación al Cambio Climático
Wind Power Generation and Grid Integration

Sensibilidad de los modelos regionales a las interacciones tierra-aire y forzamientos externos: hacia una estrategia "sin costuras" de muy alta resolución
Advanced Materials for Energy and Environmental Applications

Photovoltaic Power Generation and Grid Integration

Smart Semi-transparent Luminescent Solar Concentrator Photovoltaic Glazing
Energy Efficiency in Building Construction

Wind Power Generation and Grid Integration

Storage Innovations for Green Energy Systems
Wind Power Generation and Grid Integration

Transmission and distribution Hybrid nEtworks with enhanced resilience and robUstnesS