Energydata.dk collects data from a number of different energy sector stakeholders. The database collects this real-time data before analysing it and making it available to businesses and researchers working to develop new solutions for the energy systems of the future.
“The current energy crisis has demonstrated how important it is for us to secure our energy supply and ensure that it is made up of multiple different energy sources that can supplement each other.
However, a smart and cohesive energy system—for example, one where the integration of district heating, electricity, and biogas is optimized—will only be realized if the necessary data is available,” says Anders Kragh, a software developer based in DTU’s Department of Wind and Energy Systems, who oversees the Energydata.dk database.
Energydata.dk thus represents the first step on the path to creating the basis for a smart, cohesive energy system. The platform features real-time data from the energy companies HOFOR and Bornholms Energi og Forsyning and a range of other data. According to Anders Kragh, data relating to energy production on the island of Bornholm is of particular interest.
“Bornholm represents approximately 1% of Denmark, which means that data about energy production and consumption on the island can be easily scaled to represent the whole country.”
Input to the government’s digitalization strategy
Energydata.dk has just been updated as part of the Digital Energy Lab project and now benefits from a new, more user-friendly version. This means there is an opportunity to invite further partners to join the collaboration seeking knowledge on which data types it is worth publishing.
“Concerning the government’s digitalization strategy and the upcoming rules about the release of data in the supply sector, it is important to find out which types of data provide the most value when they are disclosed and used in the smart energy systems of the future. It might be data from transformer substations, charging operators, district heating producers, or from somewhere else altogether! Energydata.dk can shed light on this,” says Anders Kragh.
The platform also features a range of publicly available data such as weather forecasts, hourly electricity rates, CO2 emissions from electricity production, etc.
“This means that users can access all relevant data in one place. If you want to create your own area on the database as part of your research, development or demonstration project, then you only need to get to grips with one simple interface,” says Anders Kragh.
Over the last few years, DTU has carried out a number of projects together with partners from industry around the use of data from Energydata.dk. These are projects that have been working on new digital solutions seeking to improve the correlation between district heating and electricity supply, as well as solutions aiming to provide a more stable electricity supply by charging batteries using energy from wind turbines and solar cells.