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