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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

Castaneum Center

new construction

Gebäudefunktion: 
Institutionell
IPV-Integrationsjahr: 
zwischen 2011 und 2015
Quelle: 
Eurac Research

Castaneum Center

Piazza Silvius Magnago 1, Velturno (BZ), Italy

Einführung

Stakeholder

Ästhetische Integration

Energietechnische Integration

Technologische Integration

Entscheidungsfindung

Lessons learnt

Daten

Hersteller und Installateur

Map

Autor

In 2008 the municipality of Velturno launched a call for a tender for the building design. Arch. Albert Colz won the competition, with a first project proposal that did not consider the photovoltaic implementation. Later, the PV was integrated into the plan. Elektrostudio was mainly responsible for the technical design and the installation of the PV system. Obrist GmbH was chosen as modules and system supplier. The building was completed in 2015.

STAKEHOLDERS

Hauptgebäudeplaner: 

Arch. Albert Colz

IPV-Systemdesigner: 

Elektrostudio, Obrist GmbH

Hersteller von IPV-Komponenten: 

Win Win Precision Technology Co., Ltd

Produktart: 
Adresse: 
Gongdao 5th Rd., East Dist., Hsinchu City 300, Taiwan
Kontakt: 
info@winaico.com +886 3 568 8699
Web: 
https://www.wwpt.com.tw/index.php?lang=en-us
Installateur des BIPV-Systems: 

Elektrostudio

Adresse: 
Anello Nord Stegona 25, Brunico (BZ), Italy
Kontakt: 
0474 530924
Web: 
-

Obrist GmbH

Adresse: 
Via Pillhof 7, Appiano (BZ), Italy
Kontakt: 
info@obrist.bz.it +39 0471 971 800
Web: 
https://www.obrist.bz.it/en

Castaneum center is a mixed-use building in Velturno, a little village located on a sunlit hill of South Tyrol. The building’s facades are characterized by a modern appearance. On the roof, a photovoltaic plant is integrated replacing the traditional roofing materials. It is inserted in the context of historical houses with their traditional gabled roofs. The building preserves the tradition with a dark-pitched roof, with a decreased tilt angle, so that the BIPV modules, covering most of the available surface, are not visible from the street.

The BIPV plant was sized to produce about 60,000 kWh, yearly. It was estimated to cover most of the building electricity demand as well as feeding a large amount of energy into the grid (Arch. Albert Colz). The solar power is not the only kind of renewable energy used in the building. The district heating plants of Velturno supplies the building’s thermal demand. This wide use of renewable energy contributes to the CasaClima A certification of the building.

193 PV modules (WINAICO WSP-M6 PERC Series) are integrated on the roof. This module typology is particularly suitable to be placed on high sunlit surfaces. It is characterized by the anti-PID (Potential Induced Degradation) technology, aimed to avoid a phenomenon that, enforced by high temperature and high level of humidity, can provoke permanent degradation of the p–n junctions. The modules are installed on the concrete roof surface and follow the gable shape. They are fixed with aluminium crosswise clamps that create a gap between the PV panels and the concrete, allowing natural ventilation of the plant.

The municipality of Velturno decided to apply photovoltaic technology in order to directly produce renewable energy on-site. Arch. Colz proposed to integrate the PV plant on the roof, so that it doesn't compromise the building aesthetic value and it is an energetically effective solution, not subject to shading between panels (Arch. Albert Colz).

From the start of BIPV plant design phase, the aesthetic viewpoint played an important role. The photovoltaic surface was completed with optically matching black powder-coated panels, exactly aligned with the modules. Further, gangways— that partly correspond to the roof ridge—were installed for maintenance operations of the PV plant. Technically, an adjustment of the initial plan was needed. The PV panels were initially meant to be fixed to the building’s steel structure directly, causing probable heat bridges through the concrete roof. The problem was solved with a design modification (Arch. Albert Colz). This highlighted the importance of performing detailed evaluations in designing complex components as a BIPV system.

PROJEKTDATEN

Projekttyp: 
BIPV-SYSTEMDATEN
BIPV Architektursystem: 
Opaque roof
BIPV-Integrationsjahr: 
2015
Aktivmaterial: 
Monocrystalline silicon
Modultransparenz: 
Systemleistung [kWp]: 
50.2
Systembereich [m²]: 
316
Modulabmessungen [mm]: 
1,665 x 999
Modulorientierung: 
North-West, South-East
Module kippen [°]: 
7 to 4
Jährliche PV-Produktion [kWh]: 
60.000
BIPV-SYSTEMKOSTEN
Gesamtkosten [€]: 
130.000
€/kWp: 
2.590
€/m²: 
411
Hersteller von IPV-Komponenten: 

Win Win Precision Technology Co., Ltd

Produktart: 
Adresse: 
Gongdao 5th Rd., East Dist., Hsinchu City 300, Taiwan
Kontakt: 
info@winaico.com +886 3 568 8699
Installateur des BIPV-Systems: 

Elektrostudio

Adresse: 
Anello Nord Stegona 25, Brunico (BZ), Italy
Kontakt: 
0474 530924
Web: 
-

Obrist GmbH

Adresse: 
Via Pillhof 7, Appiano (BZ), Italy
Kontakt: 
info@obrist.bz.it +39 0471 971 800
Piazza Silvius Magnago 1, Velturno (BZ), Italy

Eurac Research