In this paper, the second of two parts, we apply the cost-optimal design method illustrated in Part 1 to a case study. We select a farm hostel located in Enna, Italy, as the local climate and the required energy services are suitable for the development of a solar-assisted nearly zero-energy building. The system is connected to the electric grid and does not use any other thermal energy vector. Energy demand includes heating, cooling, domestic hot water production, lighting and other electric uses, viz. inductance cooking, food refrigeration, local dehumidification, household appliances, and office devices. The building-plant system is described in terms of both technical characteristics of each component and internal loads. According to th...
This paper analyzes the use of hybrid photovoltaic/thermal (PVT) collectors in nearly zero-energy bu...
Zero Energy Buildings (ZEBs) are considered as one of the key elements to meet the Energy Strategy o...
Zero Energy Buildings (ZEBs) are considered as one of the key elements to meet the Energy Strategy o...
In this paper, the second of two parts, we apply the cost-optimal design method illustrated in Part ...
AbstractIn this paper, the second of two parts, we apply the cost-optimal design method illustrated ...
This paper deals with the cost-optimal sizing of solar technologies for thermal and electrical needs...
AbstractThis paper deals with the cost-optimal sizing of solar technologies for thermal and electric...
Designing a Zero Energy Building (ZEB) requires an optimal choice of the materials of a building en...
This paper analyzes the optimal sizing of a particular solution for renewable energy residential bui...
This paper presents a multi-objective redesign case study of an archetype solar house based on a nea...
Finding cost-optimal solutions towards nearly-zero-energy buildings (nZEBs) in accordance with Europ...
Cost optimization is one of the key elements of the EU regulatory framework concerning the energy pe...
AbstractRecently, the concept of net zero energy buildings has become a major topic in the R&D work ...
In the paper, the optimal thermoeconomic configuration of Solar Heating and Cooling systems (SHC) is...
This paper analyzes the use of hybrid photovoltaic/thermal (PVT) collectors in nearly zero-energy bu...
Zero Energy Buildings (ZEBs) are considered as one of the key elements to meet the Energy Strategy o...
Zero Energy Buildings (ZEBs) are considered as one of the key elements to meet the Energy Strategy o...
In this paper, the second of two parts, we apply the cost-optimal design method illustrated in Part ...
AbstractIn this paper, the second of two parts, we apply the cost-optimal design method illustrated ...
This paper deals with the cost-optimal sizing of solar technologies for thermal and electrical needs...
AbstractThis paper deals with the cost-optimal sizing of solar technologies for thermal and electric...
Designing a Zero Energy Building (ZEB) requires an optimal choice of the materials of a building en...
This paper analyzes the optimal sizing of a particular solution for renewable energy residential bui...
This paper presents a multi-objective redesign case study of an archetype solar house based on a nea...
Finding cost-optimal solutions towards nearly-zero-energy buildings (nZEBs) in accordance with Europ...
Cost optimization is one of the key elements of the EU regulatory framework concerning the energy pe...
AbstractRecently, the concept of net zero energy buildings has become a major topic in the R&D work ...
In the paper, the optimal thermoeconomic configuration of Solar Heating and Cooling systems (SHC) is...
This paper analyzes the use of hybrid photovoltaic/thermal (PVT) collectors in nearly zero-energy bu...
Zero Energy Buildings (ZEBs) are considered as one of the key elements to meet the Energy Strategy o...
Zero Energy Buildings (ZEBs) are considered as one of the key elements to meet the Energy Strategy o...