Mälardalens Högskola Logga

Text

Datum 2021-02-23
Artikeltyp News

Double benefit when future solar cell systems combine agriculture and electricity production

Bild från tidigare installerat solcellssystem i Dirmingen, Tyskland

At MDH a research project is being conducted which for the first time in Sweden will investigate the double benefits of solar cell systems that combine agriculture with the production of electricity (Photo: Next2Sun GmbH)

In the future it will be possible for us to use solar cell systems which combine agriculture with the production of electricity. At MDH a research project is being conducted which for the first time in Sweden will investigate the double benefits of precisely this. The result could for example lead to a considerable increase in the production of solar power.

In an agrivoltaic solar cell system, agriculture and electricity are combined with the aid of solar cells. Thereby there are double benefit to be gained from the farmland used, which gives more profitable investments for solar cell systems. In warmer countries, research projects have shown that shading from solar cells can contribute to lower temperatures and higher soil moisture, which can benefit the crops grown and reduce the need for irrigation. At the same time, the crops can generate a more suitable ambient temperature for the solar cells, which is favourable for them since their efficiency increases with a lower temperature.

In a research project at MDH, an agrivoltaic solar cell system will now be installed and evaluated for the first time in Sweden, regarding both solar power production and agriculture.

In this project, which is a collaboration between MDH, Solkompaniet, SLU (the Swedish University of Agricultural Sciences) and Kärrbo Vicarage, with Uppsala University and Università Cattolica in Italy as scientific collaboration partners, they will be testing whether this type of solar cell installation can be of interest on a larger scale as well. It is a continuation of previous MDH collaborations, in which NASA and SMHI have been scientific collaboration partners regarding studies of a holistic view between cultivation, irrigation, access to water and electricity generation.

In step with an increasingly warmer climate, water economy is becoming an increasingly more important factor in the world. The project links up with the UN’s global goals of Zero Hunger, Clean Water for Everyone and Sustainable Energy for Everyone.


Gives increased potential for solar power production

During the spring 2021 an agrivoltaic solar cell system will be installed at Kärrbo Vicarage outside Västerås. The solar cell modules are double-sided, which means that both their fronts and backs will contribute towards generating solar power. Measurements will be taken of several parameters, such as solar radiation to the solar cells and to the ground, air temperature, solar cell temperature, soil moisture, solar power production and the growth of cultivated mounds of grass and clover.

– If there are good results from the project it will open up a new and probably big market for solar cells, where agriculture and power generation can be combined. This would give a considerably increased potential for solar power production in Sverige, and contribute towards solar power acquiring a considerably larger share of Sweden’s electricity mix than what it has today, says Bengt Stridh, Senior Lecturer at MDH.

The project is being led by Associate Professor Pietro Campana at MDH. It receives financial support from the Swedish Energy Agency and the participating companies contribute with co-financing.


This is how MDH work with the sustainable development goals

On 1 January 2016, the 17 Sustainable Development Goals (SDGs) of the 2030 Agenda for Sustainable Development — adopted by world leaders — officially came into force. Over the next fifteen years countries will mobilize efforts to end all forms of poverty, fight inequalities and tackle climate change, while ensuring that no one is left behind. This is how MDH work with the sustainable development goals.

Read more

Contact Information

Senior Lecturer

Bengt Stridh

+4621107352

bengt.stridh@mdh.se

Associate Senior Lecturer

Pietro Campana

+4621101469

pietro.campana@mdh.se

To top