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Renewable district energy: cities' first step towards decarbonisation

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As sustainable energy moves up the political agenda, low carbon solutions for heating and cooling are coming to the fore. District heating in Dresden is turning greener thanks to the Innovation Power Plant Reick

 

Decarbonization and efficiency of the energy production process is by far the most important step towards compliance with the Paris Agreement. Thus, in order to fulfil the EU’s climate and energy goals, the heating and cooling sector must sharply reduce its energy consumption and cut its fossil fuels usage. According to Eurostat’s 2018 figures, 75% of the heating and cooling systems in Europe are still generated from fossil fuels while only 19% are generated from renewable energy. Moreover, half of the EU’s energy consumption are spent on the heating and cooling systems in buildings and industries with 79% of it dedicated to heating and hot water usage in households as reported by the EC.  These numbers exhibit the crucial role of district energy in smart cities. In the form of district heating and cooling networks (DHC), these infrastructures decarbonise and generate new business opportunities and economic growth for the local communities.

 

With half of the cities' energy consumption dedicated to heating and cooling usage, smart cities, like MAtchUP lighthouse city of Dresden, are increasingly turning their attention towards modern district energy as a low carbon solution: "District heating plays an important role in Dresden. Our project investigates how renewable energies will be integrated into our energy network ". This is how Mr. Alexander Haidan, MAtchUP Project Leader at DREWAG, opens the second episode of the DREWAG video series. 

 

This episode focuses on the district heating taking place in the Saxon capital and shows how smart data can protect the climate. As reported in the article “Big boilers from Reick” written by Peter Hilbert, Reick innovation power plant stands as Dresden’s main example of efficient district heating. In 2018, this heat storage system was extended by 20 containers and is now the main heating source of the city. But how can these storage tanks protect the climate?

 

"This facility is connected directly to the Dresden’s central district heating network thus creating a link between heat consumption and heat generation. This gives us the opportunity to optimally operate our plants,” explains Mr. Dautert, DREWAG Project Manager for energy services. “This means using less fuel and thus, also saving CO2 emissions". In fact, DHC systems have several advantages that permit the creation of cost-effective solutions to be developed urban areas, and thus minimise carbon emission: these infrastructures permit the re-usage waste heat and to increase the penetration of renewable energy source in urban environments.

 

Data will be measured accordingly in order to manage smoothly the power plant’s heat production. Ms. Luise Umbreit, an energy and heating technician for the Technical University of Dresden shows us how they measure the data in the video. "In addition to the general operating measurement, a complete heat storage has been equipped with fibre optic temperature measurement. This technology will tell us the temperature profile along the thermal energy storage, temporally and locally,” says Ms. Umbreit. “These measurement setups were originally made at the TU Dresden and were developed for atmospheric hot water tanks. Right now, we have already developed detailed evaluation algorithms".

 

Smart data are key in providing insights that allow the optimal management of district heating network systems and the implementation of low temperature district heating solutions. These results will be investigated profoundly under the framework of MAtchUP and will be used to optimize thermal energy storage management and increase in efficiency in the overall system thereby ensuring the security of the heat supply of large cities in the future as well.