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IPV
Integrated
Photovoltaic

A showcase of case studies, 
products and tools for IPV

Unterstützt durch:

IEA PVPS Task 15 project aims to create an enabling framework to accelerate the penetration of BIPV products in the global market of renewables.
Operazione co-finanziata dall’Unione europea, Fondo Europeo di Sviluppo Regionale, dallo Stato Italiano, dalla Confederazione elvetica e dai Cantoni nell’ambito del Programma di Cooperazione Interreg V-A Italia-Svizzera

The Dome

new construction

conservation area

Gebäudefunktion: 
Bildung
IPV-Architektursystem: 
opakes Dach
IPV-Integrationsjahr: 
zwischen 2021 und 2025
Quelle: 
BIPV meets History Projekt

The Dome

Via Romania 32, Roma, Italien

Einführung

Stakeholder

Designansatz

Ästhetische Integration

Energietechnische Integration

Technologische Integration

Entscheidungsfindung

Daten

Hersteller und Installateur

Map

Autor

The new school building called "The Dome", located in the Luiss field in the Parioli district, has a photovoltaic system integrated on the roof.

STAKEHOLDERS

Hauptgebäudeplaner: 

Alvisi Kirimoto - Studio Gemma Progettazione

IPV-Systemdesigner: 

Planex Srl

Hersteller von IPV-Komponenten: 

Peimar Industries Srl

Produktart: 
Adresse: 
Via Cefalonia 70, Brescia (BS), Italien
Kontakt: 
info@peimar.com +39 030 22 32 92
Web: 
https://www.peimar.com
Installateur des BIPV-Systems: 

Colaelectric Srl

Adresse: 
Via Stresa 45 B, Roma, Italien
Kontakt: 
-
Web: 
-
Sonstige Stakeholders: 

Fronius Srl

Berater: 

Paingea Srl

Betriebsleiter: 

Arch. Cristiano Gemma

The design approach was to integrate the panels into the roof, also following a prescription from the State Superintendence, as the lot in question is subject to landscape authorization.

The dark color of the photovoltaic panel suite well with the materials present in the project. The Dome building is characterized by a system of façades elements composed of custom-made aluminum panels and a system of wooden brise soleil that wrap around the entire building. 

The energy produced by the PV system goes to the national electricity system.

The roof has standing seam sheet metal panels (Perfect Evolution 478 UNIMETAL type) as the last layer. The use of a clamp (Perfect Univers), which is anchored at the point where the sheets join each other, has allowed the anchoring of a steel box frame where the photovoltaic panels have been positioned in a slot prepared between the wooden planks. The photovoltaic panels are spaced about 15 cm from the sheet metal roof to facilitate the flowing of air. The cables pass through a shaft placed in the substructure of the aluminum façade and in the portion of the base with concrete block infill.

The present project represents an evolution of the project submitted for the application for the building permit, which had a roof completely covered with photovoltaic tiles. The rationalize and optimization of the system design has summarized the energy needs in portion of the roof.

PROJEKTDATEN

Projekttyp: 
Einschränkung: 
BIPV-SYSTEMDATEN
BIPV Architektursystem: 
opakes Dach
BIPV-Integrationsjahr: 
2022
Aktivmaterial: 
monokristallines Silizium
Modultransparenz: 
Systemleistung [kWp]: 
14,96
Systembereich [m²]: 
80
Modulabmessungen [mm]: 
992 x 1675 x 40
Modulorientierung: 
Süden-Osten
Module kippen [°]: 
12
Jährliche PV-Produktion [kWh]: 
16.000
BIPV-SYSTEMKOSTEN
Gesamtkosten [€]: 
30.000
€/kWp: 
2.005
€/m²: 
375
Hersteller von IPV-Komponenten: 

Peimar Industries Srl

Produktart: 
Adresse: 
Via Cefalonia 70, Brescia (BS), Italien
Kontakt: 
info@peimar.com +39 030 22 32 92
Installateur des BIPV-Systems: 

Colaelectric Srl

Adresse: 
Via Stresa 45 B, Roma, Italien
Kontakt: 
-
Web: 
-

Massimo Alvisi, Cristiano Gemma