Proving the Business Case for the Internet of Things

E.On powers Swedish village with renewable energy

Steve Rogerson
October 25, 2017



Sun, wind and a big battery: these are the ingredients with which electricity utility E.On is bringing the small village of Simris in Scania in southern Sweden onto 100 per cent renewable energy. The energy for the approximately 140 households comes from wind turbines with installed capacity of 500kW and photovoltaic panels with 440kW, supported by a battery system with 800kW capacity.
 
Being supplied entirely by sun and wind entails various challenges in balancing the electricity grid and keeping the power quality with accurate voltage and frequency. One of the project’s aims is that users in Simris who are connected to the local energy system will not experience a difference in the quality of power supplied.
 
To support the balancing of the local energy system, users are engaged to become flexible prosumers, by producing energy through PV and battery systems. But they also will be smart consumers, by having steerable load assets such as, for example, heat pumps. The system can cut power peaks and make generation more efficient. To ensure security of supply during the project phase, Simris can be seamlessly re-connected to the regional grid at any time.
 
“This exciting project shows a possible development for the evolution of smart grids,” said Leonhard Birnbaum, member of the E.On board. “With the right technical equipment and intelligence, at Simris we can now demonstrate a decentralised, renewable but also comfortable future of energy even today.”
 
The residents of Simris will be able to follow the village’s electricity generation, electricity consumption and the flow of energy to or from the battery continually in real time via E.On’s web site.
 
The flexibility innovations implemented in Simris are part of the EU project InterFlex, which includes six innovative grid projects in Europe. InterFlex aims to explore various smart grid technologies to resolve grid constraints to make the growth of renewables in the electric power systems possible.
 
The InterFlex project, which started in January this year, will run for three years. During this time, 20 project partners will investigate the interactions between flexibilities provided by energy market players and the distribution grid, with a particular focus on energy storage, smart charging of electric vehicles, demand response, islanding, grid automation and the integration of different energy carriers – gas, heat and electricity. A further German InterFlex project is run by Avacon, a regional energy provider to the E.On group and located in Lower Saxony.