Add to ORKGThis research demonstrates that lightweight, thin façade systems with innovative materials can combine a higher thermal inertia with a lower energy demand for heating and cooling as compared to massive façades. It is therefore very possible to use innovative light materials (originally developed in and for Central Europe) also in Southern Europe, where the main problem is the energy demand for cooling in summer (in contrast to the energy demand for heating in northern latitudes). Three of those systems were selected and investigated for three different climatic conditions in middle latitudes with respect not only to static energy performance parameters imposed by the Italian legislation (thermal transmittance U and superficial mass...
Comparison between simulation results and measured performances is usually an open scientific proble...
none2Lots of European Countries are promoting and sharing a sustainable building approach to be in c...
In this paper a design strategy is presented to integrate energy efficiency measures and passive ene...
This research demonstrates that lightweight, thin façade systems with innovative materials can comb...
This research demonstrates that lightweight, thin façade systems with innovative materials can combi...
This research intends to verify the thermal performance of innovative lightweight building envelope ...
One of the fastest growing sources of new energy demand is space cooling. The studies EECCAC and EER...
Phase Change Materials (PCM’s) are characterised by a large thermal capacity and by melting temperat...
In Europe, the building energy demand is about 40% of the total energy requirement. In order to obta...
In cold, central European climates, hyper-insulated, heat-conserving buildings have proven a very ef...
Cool materials are characterized by having a high solar reflectance r – which is able to reduce heat...
Starting from an experimental activity, the paper describes research analysis that has been conducte...
Cool materials are characterized by having a high solar reflectance - which is able to reduce heat ...
Energy consumptions due to the residential and the tertiary sectors is increasing in the whole world...
Comparison between simulation results and measured performances is usually an open scientific proble...
none2Lots of European Countries are promoting and sharing a sustainable building approach to be in c...
In this paper a design strategy is presented to integrate energy efficiency measures and passive ene...
This research demonstrates that lightweight, thin façade systems with innovative materials can comb...
This research demonstrates that lightweight, thin façade systems with innovative materials can combi...
This research intends to verify the thermal performance of innovative lightweight building envelope ...
One of the fastest growing sources of new energy demand is space cooling. The studies EECCAC and EER...
Phase Change Materials (PCM’s) are characterised by a large thermal capacity and by melting temperat...
In Europe, the building energy demand is about 40% of the total energy requirement. In order to obta...
In cold, central European climates, hyper-insulated, heat-conserving buildings have proven a very ef...
Cool materials are characterized by having a high solar reflectance r – which is able to reduce heat...
Starting from an experimental activity, the paper describes research analysis that has been conducte...
Cool materials are characterized by having a high solar reflectance - which is able to reduce heat ...
Energy consumptions due to the residential and the tertiary sectors is increasing in the whole world...
Comparison between simulation results and measured performances is usually an open scientific proble...
none2Lots of European Countries are promoting and sharing a sustainable building approach to be in c...
In this paper a design strategy is presented to integrate energy efficiency measures and passive ene...