Sustainability: decarbonised, resilient, adaptative and regenerative Built Environment
- Development and application of life cycle-oriented and sustainability-driven project methodologies and evaluation tools
- Development of systemic models and approaches for the resilience of the built environment and buildings
- Development of circular systemic approaches (life cycle thinking) for regeneration and adaptive reuse of building systems and components
- Development of new strategies for the energy and environmental requalification of building stocks
- Innovative technologies for energy and environmental efficiency of building-systems and meeting comfort needs while minimizing resource consumption
- Development of adaptive/regenerative envelope solutions for energy efficiency and comfort
- Technologies for the exploitation and storage of renewable energies for buildings and communities (distributed generation, etc.)
- Analysis of residual building performance
- Dynamic modeling and simulation of buildings and system
- Experimental monitoring of photovoltaic and hybrid (photovoltaic-thermal) components in an outdoor environment
- Transfer of experimental settlement models for the sustainable development of urban areas
- Monitoring of performance in real and semi-real environments (living lab) of innovative building components
- Framing and development of new models and approaches for building energy certification
- Support for public administrations