Add to ORKGIn the perspective of “nearly zero energy buildings” as foreseen in the EPBD 2010/31/EU, herein a prototype of a wooden prefabricated BiPV wall is conceived, designed, built and tested. The prototype key concepts, identified according to the recommendations of the IEA Task 41 research project, are: multi-functionality, prefabrication, sustainability and integration. The prototype design is the result of a theoretical study which takes into account both architectural integration aspects and energy performance issues. The latter in particular, is based on the evaluation and improvement of both PV and building-related aspects, through the investigation and implementation of low-cost passive strategies to improve the overall BiPV performance...
Building integrated photovoltaics (BIPV) is technology that can significantly increase the share of ...
The paper presents the first results of research that was partly conducted within the framework of E...
The concept of BIPV refers to the capability of photovoltaic systems to be multifunctional and inter...
This study presents an examination of prefabricated facades in energy conservation projects, with a ...
The extended use of fossil fuels for power generation resulted in energy crisis and serious environm...
The reduction in building energy consumption and CO2 emissions is one of the main goals in the nearl...
The new targets set by the EU for the building sector such as the EU-Directive on Energy Performance...
The building envelope has a dominant impact on a building’s energy balance, and it plays an essentia...
Energy flexibility in buildings is gaining momentum with the introduction of new European directives...
In urban settings, building-integrated photovoltaics (BIPV) on façades prove more effective than roo...
The project goal was to assess the viability of photovoltaic (PV) installations in two different exi...
The paper shows the results of mechanical tests carried out on prototypes of a new Building Integrat...
Building Integrated PV (BIPV) is seen as strategy to realize the EU target of Nearly Zero Energy Bui...
The scenario that emerges from scientific research on the use of BIPV systems in architecture shows ...
Building integrated photovoltaics (BIPV) is technology that can significantly increase the share of ...
The paper presents the first results of research that was partly conducted within the framework of E...
The concept of BIPV refers to the capability of photovoltaic systems to be multifunctional and inter...
This study presents an examination of prefabricated facades in energy conservation projects, with a ...
The extended use of fossil fuels for power generation resulted in energy crisis and serious environm...
The reduction in building energy consumption and CO2 emissions is one of the main goals in the nearl...
The new targets set by the EU for the building sector such as the EU-Directive on Energy Performance...
The building envelope has a dominant impact on a building’s energy balance, and it plays an essentia...
Energy flexibility in buildings is gaining momentum with the introduction of new European directives...
In urban settings, building-integrated photovoltaics (BIPV) on façades prove more effective than roo...
The project goal was to assess the viability of photovoltaic (PV) installations in two different exi...
The paper shows the results of mechanical tests carried out on prototypes of a new Building Integrat...
Building Integrated PV (BIPV) is seen as strategy to realize the EU target of Nearly Zero Energy Bui...
The scenario that emerges from scientific research on the use of BIPV systems in architecture shows ...
Building integrated photovoltaics (BIPV) is technology that can significantly increase the share of ...
The paper presents the first results of research that was partly conducted within the framework of E...
The concept of BIPV refers to the capability of photovoltaic systems to be multifunctional and inter...