The proposed research is aimed to define some BIPV (building integrated photovoltaics) paradigms for the refurbishment of historical contexts, by defining strategic criteria related to linguistic-architectural and t...The proposed research is aimed to define some BIPV (building integrated photovoltaics) paradigms for the refurbishment of historical contexts, by defining strategic criteria related to linguistic-architectural and technological-constructive aspects of solar systems (including case-studies in specific application contexts). This research could, once perfected and shared, be used within operative tools (guidelines, case studies, etc.) really applicable to common scale, e.g., in today's post-earthquake reconstruction in L'Aquila, for defining possible solar implementation possibilities in sensitive areas according to an innovative and sustainable method of intervention.展开更多
The aim of this paper is to propose a flexible and accurate methodology for the evaluation of the BIPV (building integrated photovoltaic) potential on industrial building roofs. The use of more realistic and case sp...The aim of this paper is to propose a flexible and accurate methodology for the evaluation of the BIPV (building integrated photovoltaic) potential on industrial building roofs. The use of more realistic and case specific data obtained by accurate technical on-site audits is proved to be of significant importance in the reliability of the proposed methodology results. Moreover, the most recent PV market information is used, considering however that this factor is rapidly changing during the last years, owed to the vast growth of the PV sector. To this end, emphasis is given on the country of Greece, where besides the fact that there is an increase of PV installations; no progress has been met in the use of BIPV systems in the industrial sector, opposite to the situation met in other EU countries. Acknowledging the above, the proposed methodology is currently applied so as to evaluate the BIPV potential of a large industrial zone close to the Greek capital, Athens. The results of this study can be used by both other researchers, for similar evaluations, and energy policy makers, to support the clean energy production concept on the basis of BIPV systems in industrial areas.展开更多
The performance of each type of building must meet all the needs and requests of new real estate markets. In fact, in the excellent architectures, the user can manage, with autonomy and flexibility, each system and pr...The performance of each type of building must meet all the needs and requests of new real estate markets. In fact, in the excellent architectures, the user can manage, with autonomy and flexibility, each system and product, according to the new energy and building technologies too. The main objective is the social and environmental sustainability with the reduction of fossil fuels and the greenhouse gas effect, pushing the use of renewable energies, in a new trend of land regeneration with sustainable buildings and settlement recovery. The energy crisis, mainly generated by the climate change, the air pollution, with consequent extinction of the species, reduction of the land and the work, the degradation and the environmental and seismic risk, focuses on the security and quality of construction systems, integrated use of clean resources. The methodologies aimed at integrating of energy-efficient and innovative building technologies in architecture, from design to management, to produce electric and thermal energy with active and passive properties, for a high-performance habitat. Therefore, the use of solar photovoltaic in the buildings, BIPV (Building Integrated Photovoltaic) with high-performance glass vision, efficient systems, intelligent materials, is integrated in architectures with the use of innovative construction systems, finally, technology of OPV (Organic Photovoltaic), multi-junction cells, the dye sensitized solar cells in the solid state, etc., and adoption of storage systems.展开更多
文摘The proposed research is aimed to define some BIPV (building integrated photovoltaics) paradigms for the refurbishment of historical contexts, by defining strategic criteria related to linguistic-architectural and technological-constructive aspects of solar systems (including case-studies in specific application contexts). This research could, once perfected and shared, be used within operative tools (guidelines, case studies, etc.) really applicable to common scale, e.g., in today's post-earthquake reconstruction in L'Aquila, for defining possible solar implementation possibilities in sensitive areas according to an innovative and sustainable method of intervention.
文摘The aim of this paper is to propose a flexible and accurate methodology for the evaluation of the BIPV (building integrated photovoltaic) potential on industrial building roofs. The use of more realistic and case specific data obtained by accurate technical on-site audits is proved to be of significant importance in the reliability of the proposed methodology results. Moreover, the most recent PV market information is used, considering however that this factor is rapidly changing during the last years, owed to the vast growth of the PV sector. To this end, emphasis is given on the country of Greece, where besides the fact that there is an increase of PV installations; no progress has been met in the use of BIPV systems in the industrial sector, opposite to the situation met in other EU countries. Acknowledging the above, the proposed methodology is currently applied so as to evaluate the BIPV potential of a large industrial zone close to the Greek capital, Athens. The results of this study can be used by both other researchers, for similar evaluations, and energy policy makers, to support the clean energy production concept on the basis of BIPV systems in industrial areas.
文摘The performance of each type of building must meet all the needs and requests of new real estate markets. In fact, in the excellent architectures, the user can manage, with autonomy and flexibility, each system and product, according to the new energy and building technologies too. The main objective is the social and environmental sustainability with the reduction of fossil fuels and the greenhouse gas effect, pushing the use of renewable energies, in a new trend of land regeneration with sustainable buildings and settlement recovery. The energy crisis, mainly generated by the climate change, the air pollution, with consequent extinction of the species, reduction of the land and the work, the degradation and the environmental and seismic risk, focuses on the security and quality of construction systems, integrated use of clean resources. The methodologies aimed at integrating of energy-efficient and innovative building technologies in architecture, from design to management, to produce electric and thermal energy with active and passive properties, for a high-performance habitat. Therefore, the use of solar photovoltaic in the buildings, BIPV (Building Integrated Photovoltaic) with high-performance glass vision, efficient systems, intelligent materials, is integrated in architectures with the use of innovative construction systems, finally, technology of OPV (Organic Photovoltaic), multi-junction cells, the dye sensitized solar cells in the solid state, etc., and adoption of storage systems.
