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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

San Anton Market

renovation

Gebäudefunktion: 
Handel
IPV-Architektursystem: 
Oberlicht
IPV-Integrationsjahr: 
zwischen 2006 und 2010
Quelle: 
IEA PVPS Task 15 Projekt

San Anton Market

Calle de Augusto Figueroa 24, Madrid, Spanien

Einführung

Stakeholder

Ästhetische Integration

Energietechnische Integration

Technologische Integration

Entscheidungsfindung

Lessons learnt

Daten

Hersteller und Installateur

Map

Autor

This project is part of the refurbishment of San Anton Market, located in the centre of Madrid, where a 168 m2 skylight, comprised of transparent low-E photovoltaic glazing, has been completely integrated into the building.

Source: Successful Building Integration of Photovoltaics – A Collection of International Projects

STAKEHOLDERS

Hauptgebäudeplaner: 

Arch. estudio ATARIA

IPV-Systemdesigner: 

Onyx Solar

Hersteller von IPV-Komponenten: 

Onyx Solar

Produktart: 
Adresse: 
C/ Río Cea 1, Ávila, Spain
Kontakt: 
info@onyxsolar.com +34 920 21 00 50
Web: 
https://www.onyxsolar.com/

The solution chosen for the photovoltaic installation have a modern appearance similar to conventional glazing solutions which facilitate their integration in urban environments. In order to optimize the aesthetic of the final installation and reduce the visual impact of the electric elements, the junction boxes and wires are hidden inside the supporting structure.

This photovoltaic skylight generates over 7,700 kWh per year and prevents the emission of 5 tons of CO2. For this reason, it has been selected as a sustainable project of reference by the European Commission. The system enables the generation of electricity in situ, while providing multifunctional bioclimatic properties such as the filtration of solar radiation (photovoltaic glass reduces the infrared, 90 %, and ultraviolet radiation, 99 %, compared to with conventional laminated glass), and at the same time enhancing interior light and providing thermal and acoustic insulation thanks to its double glazing.

The photovoltaic glazing employed is made of 54 amorphous silicon modules, with a semitransparency degree of 20 % (L vision). In addition to the low-E PV glass, a 12 mm air-filled cavity was chosen to increase the thermal and acoustic insulation of the system. The modules are installed with a small slope to facilitate water drainage.

The photovoltaic glazing allows two functions to be combined: the possibility of illuminating an interior space, while having a solar installation. In this case, the skylight in which the installation was placed is the backbone of the project, so it was also wanted to add a pedagogical function, making the visitors ware of the need of using renewable energy. (Arch. Ana María Montiel Jiménez, estudio ATARIA)

The result is absolutely satisfying. The main objective of having a photovoltaic installation as a fully integrated element in the building was an absolute success, as the qualities of double functionality sought were provided. Using renewable energy is a key objective in society in general, and architecture in particular, and photovoltaic glazing allows it to be incorporated in a natural way in necessary elements of the interior space. (Arch. Ana María Montiel Jiménez, estudio ATARIA)

The San Anton Market project was a technical challenge for Onyx Solar since it was the first one that they executed using photovoltaic glazing with an insulating gap between two panes (IGU, Insulated Glazing Unit). It created a twofold challenge as it was necessary to provide a solution to the exit of the wiring from the rear part of the photovoltaic glazing through the connection box and, at the same time, to find a technical solution to hide the wiring that interconnects the glazing units with each other and the strings that reach the inverters. The design of the skylight in a saw-tooth pattern was the most suitable solution to position the junction boxes on the photovoltaic glazing offsets. The work carried out by the architectural company’s team, the construction company and Onyx Solar technical team was completely coordinated during the execution of the project, which allowed agile solution of any small setbacks that occurred during the different project stages. The final result of the skylight was satisfying. It was possible to achieve the goals of integrating 100 % photovoltaic glazing with an insulating air gap and allowing the light to pass into the building in a controlled manner. The integration with the building is so satisfactory that the employees and users of the Mercado de San Anton building are unable to perceive that part of the energy they consume is being produced cleanly “over their heads” thanks to the sun. (Arch. Ángel Gallego, Onyx Solar)

Although the initial cost of this skylight could be higher if it is compared to conventional solutions because of the photovoltaic and electrical components, economic viability is achieved due to the capacity of the PV glazing to generate free electricity from solar light and the passive properties that reduce climate control loads and HVAC demands. A feasibility analysis was done on the basis of total cost and an estimation of electricity generation per year of about 7,748 kWh. Under these conditions, the energy price was estimated to be about 0.02 €/kWh. Besides, the use of the BIPV solutions could lead to a reduction of 34 % in HVAC energy demands with 55 % as the internal rate of return and a payback less than 2 years.

Low-E photovoltaic glazing has a Solar Heat Gain Coefficient (SHGC) that is much lower than that of conventional laminated glazing. A low SHGC value is critical for thermal comfort, particularly for hot climates such as Madrid.

PROJEKTDATEN

Projekttyp: 
BIPV-SYSTEMDATEN
BIPV Architektursystem: 
Oberlicht
BIPV-Integrationsjahr: 
2010
Aktivmaterial: 
amorphes Silizium
Modultransparenz: 
Systemleistung [kWp]: 
6,5
Systembereich [m²]: 
168
Modulabmessungen [mm]: 
2536 x 1147, 2668 x 1147
Modulorientierung: 
Süden-Westen
Module kippen [°]: 
10
Jährliche PV-Produktion [kWh]: 
7.748
BIPV-SYSTEMKOSTEN
Gesamtkosten [€]: 
77.280
€/kWp: 
11.890
€/m²: 
460
Hersteller von IPV-Komponenten: 

Onyx Solar

Produktart: 
Adresse: 
C/ Río Cea 1, Ávila, Spain
Kontakt: 
info@onyxsolar.com +34 920 21 00 50
Calle de Augusto Figueroa 24, Madrid, Spanien

E. Rico, A. Gallego