Intelligent components for the power grid of the future

Peak loads caused by fast charging of electric cars leads to bottlenecks in the power grid. The energy transition requires a flexible power grid. Pexels

Fast charging of electric cars requires a lot of energy in a short period of time. These peak loads lead to bottlenecks in the power grid, and are one of the problems facing the expansion of electric mobility. The many challenges of the energy transition require a flexible and reliable power grid, which can accommodate fluctuations in the consumption and production of energy.

A key element of this could be the smart transformer, which is being researched by the Power Electronics working group at Kiel University. On the basis of power semiconductors made of silicon carbide, they have developed a prototype which automatically regulates the current flow.

It could be used not only for a better integration of charging stations into the power grid, but also for the connection of direct current networks and in data centres. The researchers will present a part of the prototype for the first time at the Hannover Messe.

As part of the expansion of renewable energy, the number of decentralised energy producers and consumers is increasing, e.g. wind turbines and charging stations. “Our conventional infrastructure is designed for reverse power flow,” said Professor Marco Liserre from Kiel University.

New components from power electronics could help to distribute the electricity according to demand, and thus better manage the power grid and counteract overloading and outages. Together with his working group, Liserre has developed a power electronics transformer, which can transform medium voltage into low voltage and enables a connection to DC at the same time. “We want to modernise the power grid and prepare it for the energy transition. What we need is a flexible, efficient and above all reliable system,” continued Liserre.

Thanks to its modular design, the smart transformer developed in Kiel is maintenance-friendly, and can be easily and cost-effectively scaled for different applications. It could reduce energy consumption and increase security in data centres and in more electric aircraft.

In both environments, the infrastructure is designed with intentional built-in redundancy: multiple systems ensure that operations continue to run reliably and the power supply is not interrupted, even if individual components fail. Because the transformer applied redundancy on the building block level, less redundancy on the electronic level is necessary, which increases reliability and reduces costs.

The basic building block of the current prototype of the intelligent transformer from Kiel connects a low voltage dc with value of 800V and a medium voltage ac with output voltage level of 2.6 kV line-to-line. Moreover, the system can process up to 100 kW of output power. The transformer was developed as part of the European research project HEART (Highly Efficient And Reliable smart Transformer), which has been running at Kiel University since 2014.

From 23-27 April 2018, the research team will be presenting part of its prototype at the Kiel University booth at the Hannover Messe (Hall 2, Research & Technology, Booth C07). Professor Marco Liserre will present the concept of the smart transformer in a lecture on site on Tuesday 24 April at 12 noon and 3pm. The state university is represented at the world's largest industrial trade show for the second time, and presents diverse contributions from the research and innovative location of Schleswig-Holstein: www.uni-kiel.de/hannovermesse

Photos are available to download:

http://www.uni-kiel.de/download/pm/2018/2018-101-1.jpg
Caption: Peak loads caused by fast charging of electric cars leads to bottlenecks in the power grid. The energy transition requires a flexible power grid.
Photo/Copyright: Pexels

http://www.uni-kiel.de/download/pm/2018/2018-101-2.jpg
Capture: A research team around Marco Liserre, Professor of power electronics, has developed the prototype of a smart transformer that regulates the power flow.
Foto/Copyright: Siekmann, CAU

http://www.uni-kiel.de/download/pm/2018/2018-101-3.jpg
Capture: New components from power electronics could help to distribute the electricity according to demand, and thus better manage the power grid.
Foto/Copyright: Siekmann, CAU

Contact:
Prof. Dr Marco Liserre
Kiel University
Institute of Electrical Engineering and Information Technology
Tel.: +49 (0)431/880-6100
E-mail: ml@tf.uni-kiel.de

More information:
http://www.uni-kiel.de/hannovermesse/en/programme/tuesday-24-4.2018/smart-transf…

Christian-Albrechts-Universität zu Kiel
Press, Communication and Marketing, Dr Boris Pawlowski, Text/editing: Julia Siekmann
Postal address: D-24098 Kiel, Germany,
Telephone: +49 (0)431 880-2104, Fax: +49 (0)431 880-1355
E-mail: presse@uv.uni-kiel.de, Internet: http://www.uni-kiel.de Twitter: http://www.twitter.com/kieluni Facebook: http://www.facebook.com/kieluni Instagram: http://www.instagram.com/kieluni

http://www.uni-kiel.de/pressemeldungen/index.php?pmid=2018-101-smarttransformer&…

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