Photovoltaics and Photosynthesis
Pilot plant at Lake Constance combines electricity and crop production
© Fraunhofer ISE
Now the scientists at Fraunhofer ISE together with their partners in the project "APV-Resola" are reaping the benefits from Goetzberger’s original article: On September 18, 2016 an operating APV pilot system – the largest research project of its kind in Germany – was inaugurated on location at Lake Constance. On this occasion the project was also presented with a prize from the "Germany – Land of Ideas" initiative.
Over the past decade, Germany has experienced rapid growth in ground-mounted photovoltaic (PV) installations, leading to competition for land between renewable energy producers and farmers. Now researchers at the Fraunhofer Institute for Solar Energy Systems ISE have taken the idea presented by the Institute’s founder Adolf Goetzberger in 1981 and made it a reality together with their project partners: BayWa r. e. renewable energy, the energy supplier "Elektrizitätswerke Schönau (EWS)", the Demeter farm community "Hofgemeinschaft Heggelbach", the Institute for Technology Assessment and Systems Analysis (ITAS) of the Karlsruhe Institute for Technology (KIT), the University of Hohenheim, the Regional Association of Lake Constance-Upper Swabia and the local citizens. The innovative APV pilot system demonstrates the resourceful tandem use of acreage, facilitating the production of crops located underneath ground-mounted PV arrays. "In view of the dynamic worldwide growth of photovoltaic installations over the last decade and the resulting increase in land usage for PV systems, innovative concepts, like agrophotovoltaics which facilitates the dual usage of agricultural land, help to further and accelerate the transformation of the global energy system,” says Prof. Dr. Eicke R. Weber, Institute Director at Fraunhofer ISE.
In March 2015, the APV project group began work on the installation in the Lake Constance-Upper Swabian region, after performing numerous investigations, modeling and simulation research. The APV pilot system is installed and operates on land belonging to the organic farming community “Hofgemeinschaft Heggelbach”. Two and a half hectares were delegated for this purpose. The APV system takes up about one third hectare. Beneath the PV modules, which tower five meters above the ground, four different crops were planted for the project duration: wheat, trefoil, potatoes and celeriac. Next to the APV system, the project team planted the same crops over an equivalent area (without PV modules) as a reference. The scientists use this direct reference to determine which type of vegetables or crops are particularly suitable for use with APV installations, that is, the most efficient coupling strategy.
The APV system has an installed power of 194 kWp, which covers the annual electricity demand of about 62 households. The surplus electricity is fed into the grid of the energy provider "Elektrizitätswerke Schönau". So-called "bifacial PV modules" from the German module company SolarWorld are used in the APV system. These modules not only convert the solar energy incident on the front side of the modules but also the reflected ambient solar energy incident on the rear into electricity. This produces a higher energy yield per unit area and provides a more homogeneous light distribution on the crops growing underneath the APV system. “The agricultural sector is faced with the challenge of the largely expanding renewable energy sector and with managing the competitive interests of farming and energy production,” says Stephan Schindele, project head at Fraunhofer ISE. “In this context, agrophotovoltaics can serve as a trend-setting solution for the future."
A special supporting structure was developed together with the Austrian solar technology manufacturer Hilber Solar. The support structure was designed to fit the specific requirements on the premises. Due to its modular construction, the structure can be flexibly adapted for other installation sites with minimum expenditure. "We are looking forward to the results of the practical experience with the APV pilot system," says Thomas Schmid of the Demeter farm community "Hofgemeinschaft Heggelbach." "For us, it is important that the system is simple to operate and that the crop yield from underneath the APV system is at least 80 percent of that from the reference crop.” The crops under the APV system in Heggelbach are to be harvested in the summers of 2017 and 2018. After two years’ experience, the results from the different yields will be analyzed and published in a final report.