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IPV
Integrated
Photovoltaic

A showcase of case studies, 
products and tools for IPV

Supported by:

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

Farm building in San Genesio

renovation

Building use: 
agricultural
IPV architectural system: 
skylight
IPV integration year: 
between 2011 and 2015
Source: 
Eurac Research

Farm building in San Genesio

Brunner Avigna 1, San Genesio (BZ), Italy

Introduction

Stakeholders

Aesthetic integration

Energy integration

Technology integration

Decision making

Lessons learnt

Data

Producer and installer

Map

Author

The building, an old construction, was retrofitted through integrating a PV system into the building roof. It is a traditional 2-storyes farmhouse, with a barn upstairs and stalls downstairs, currently used as farm equipment storage. The owner Thomas Widmann was supported from the first design stages by the engineering firm Blasbichler in finding the best architectural solution to apply to the existing buildings. The Blasbichler team provided a preliminary economic assessment and was the responsible for the BIPV technical design. Elektro Lahner Srl and Solarxpert Srl were involved in the plant installation, completed in 2011.

STAKEHOLDERS

IPV system designer: 

Ing. Studio Blasbichler Srl

IPV components producer: 

Scheuten Solar Technology GmbH (closed)

Address: 
-
Contact: 
-
Web: 
-
IPV system installer: 

Elektro Lahner Srl

Address: 
Via Johann Georg Mahl 40, Brunico (BZ), Italy
Contact: 
info@elektro-lahner.com +39 0474 773636
Web: 
https://www.elektro-lahner.com/it/home/

The building is located in a little village, high above the valley entrance of the Sarentino Valley. It is embedded in the charming scenery of the Salto high plateau, far away from the main traffic lines. The BIPV system is modern technology surrounded by a natural landscape characterized by meadows, larch trees and traditional buildings. The semi-transparent PV modules create an interesting light and shadow pattern inside.

The BIPV system is estimated to produce 41,327 kWh per year. It feeds the total generated electricity into the grid together with second PV plant integrated on a nearby building, of the same owner. A solar thermal installation is integrated close to the second PV plant (Ing. Studio Blasbichler Srl).

188 Scheuten Multisol Vitro (P6-54) photovoltaic modules are integrated on the southeast facing roof of the building. The modules are frameless glass–glass products. The polycrystalline cells are inserted between a highly transparent low-irontempered safety glass, with anti-reflective-coating (front), and a heat strengthened safety glass (rear). The cells do not cover the whole module area leaving gaps to let light through. The glazed PV modules are mounted with special aluminium Solrif profile frames and fixed to the wood substructure. Special mounting clamps brace two modules to the frames in the overlapping area, ensuring the system’s weather tightness.

When the owner decided to integrate a photovoltaic system into the farm building, he wanted to exploit the building structures’ available surface in order to produce renewable energy to be fed into the grid and indirectly guarantee coverage of the building’s energy consumption. He was also encouraged by the possibility of receiving economic incentives (Conto Energia) (Ing. Studio Blasbichler Srl).

The BIPV modules create a semi-transparent surface able to partially shade the upstairs barn. They allow a fair amount of sunlight to penetrate, guaranteeing natural illumination and contributing to the building heating. However, they prevent an excessive solar gain. In this case study, the potential of the BIPV multifunctional technology is highly exploited. All the functions of a traditional roofing system (e.g. mechanical resistance, thermal insulation, protection from atmospheric agents, water tightness, etc.) are connected with the shading function that controls the internal visual and thermal comfort, without compromising the electric energy generation. It is an interesting example of BIPV application on an old construction, which is located in a high-value natural environment.

PROJECT DATA

Project type: 
BIPV SYSTEM DATA
Architectural system: 
Skylight
Integration year: 
2011
Active material: 
Polycrystalline silicon
Module transparency: 
System power [kWp]: 
39.6
System area [m²]: 
346
Module dimensions [mm]: 
1,488 x 988
Modules orientation: 
South-East
Modules tilt [°]: 
35
Annual PV production [kWh]: 
41,327
BIPV SYSTEM COSTS
Total cost [€]: 
146,202
€/kWp: 
3,701
€/m²: 
423
IPV components producer: 

Scheuten Solar Technology GmbH (closed)

Address: 
-
Contact: 
-
Web: 
-
IPV system installer: 

Elektro Lahner Srl

Address: 
Via Johann Georg Mahl 40, Brunico (BZ), Italy
Contact: 
info@elektro-lahner.com +39 0474 773636
Brunner Avigna 1, San Genesio (BZ), Italy

Eurac Research