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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

Umwelt Arena Schweiz

new construction

Gebäudefunktion: 
multifunktional
IPV-Integrationsjahr: 
zwischen 2011 und 2015
Quelle: 
IEA PVPS Task 15 Projekt

Umwelt Arena Schweiz

Türliackerstrasse 4, Spreitenbach, Svizzera

Einführung

Stakeholder

Ästhetische Integration

Energietechnische Integration

Technologische Integration

Entscheidungsfindung

Lessons learnt

Daten

Hersteller und Installateur

Map

Autor

The Umwelt Arena is the first Swiss centre of excellence for the environment with the widest integrated PV plant. The arena offers more than 40 different exhibitions for individuals, families and professionals over an area covering 11,000 m2. In 2011, the MegaSlate® roof system from 3S Photovoltaics (a member of Meyer Burger Technology Ltd.) was integrated. BE Netz was responsible for the installation. Funds for the realization of the Umwelt Arena were received from leading Swiss partners recognising its strategies with regard to the sustainable energy supply and the importance of the natural habitat.

Souces: Successful Building Integration of Photovoltaics – A Collection of International Projects, solarchitecture

STAKEHOLDERS

Hauptgebäudeplaner: 

René Schmid Architekten

Hersteller von IPV-Komponenten: 

Meyer Burger Technology AG

Produktart: 
Adresse: 
Schorenstrasse 39, Thun, Switzerland
Kontakt: 
mbtinfo@meyerburger.com +41 33 221 28 00
Web: 
https://www.meyerburger.com/en/

The building roof presents a modern architectonic design. It stretches almost down to the ground, in the manner of a dome and is completely covered with PV modules. The architect René Schmid was looking for a shape that expresses dynamism and athleticism. It is inspired partly by the outstretched wings of a bird and partly by the world of fast cars and speedboats. The photovoltaic panels form the protective shell of the building like a reptile’s scales. Its facets and the darkly gleaming panels are reminiscent of a crystal. The architecture of the Umwelt Arena is an example of how ecology and economy can be harmoniously combined in the shape of a modern building.

The PV system was calculated to generate around 540,000 kWh per year, twice the amount of energy that it consumes, with a zero CO2 balance. Other energy production systems are solar thermal panels and a biogas process based on food waste. The solar thermal system is used to cool the building in summer and heat it in winter with an innovative system. The equipment used for this system and the appliances used in the Umwelt Arena run with the self-generated electricity. Some of the surplus electricity is stored and/or used by neighbourhood properties.

The roof present an octagonal BIPV system with 5,239 modules produced by 3S Swiss Solar Systems and installed on a total of 33 differently oriented trapezoidal surfaces, with slopes ranging from 6° to 62°. The solar modules are frameless, 3,663 of them are standard modules and 1,644 have special shapes.

Walter Schmid planned the Umwelt Arena Schweiz as an environmental arena and interactive exhibition on sustainability. With its award-winning construction, the building itself is part of the exhibitions which can be visited with tour guides.

This project showed that electricity generation could be successfully integrated in a building, but the obstacles were the fixed shape and the shiny dark blue appearance of the PV modules. Different techniques have been tried and learned to overcome those obstacles, by creating matt finishes to reduce reflection or colours away from the standard blue, black or brown. Today it is much easier, as PV modules come in many different colours, materials and compositions, with more innovations on the way. In the past, PV has influenced architecture in a negative way with its visually unappealing standard modules that often appear as alien elements on roofs and walls. Now, with the new array of options for colours and patterns as well as the aesthetic and structural integration of PV into the building, possibilities for artistic expression are endless. Some of the most spectacular buildings in the world incorporate solar energy in creative ways. Hopefully this will inspire more and more architects, investors and homeowners to embrace solar as a standard building tool. (Arch. René Schmid, René Schmid Architekten AG)

PROJEKTDATEN

Projekttyp: 
Abdeckung des Stromverbrauchs [%]: 
100
BIPV-SYSTEMDATEN
BIPV Architektursystem: 
tetto opaco
BIPV-Integrationsjahr: 
2011
Aktivmaterial: 
silicio monocristallino
Modultransparenz: 
Systemleistung [kWp]: 
737
Systembereich [m²]: 
5334
Modulabmessungen [mm]: 
varie
Modulorientierung: 
nod, est, sud, ovest
Module kippen [°]: 
varie
Jährliche PV-Produktion [kWh]: 
540.000
Hersteller von IPV-Komponenten: 

Meyer Burger Technology AG

Produktart: 
Adresse: 
Schorenstrasse 39, Thun, Switzerland
Kontakt: 
mbtinfo@meyerburger.com +41 33 221 28 00
Türliackerstrasse 4, Spreitenbach, Svizzera

Pierluigi Bonomo