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Electricity from heat and better batteries for space

DLR, JAXA and AIST sign cooperation in energy research

22 September 2017

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  • Gemeinsame Forschung für bessere Batterien und Thermoelektrische Generatoren
    Joint research for better batteries and thermoelectric generators

    (From left to right) Bernhard Milow, Energy Programme Director at DLR, Pascale Ehrenfreund, Chair of the DLR Executive Board, Ryoji Chubachi, President of the National Institute of Advanced Industrial Science and Technology (AIST).

  • AIST Thermoelectrics Lab
    AIST Thermoelectrics Lab

    Pascale Ehrenfreund, Chair of the DLR Executive Board, and DLR Energy Programme Director Bernhard Milow at the AIST Thermoelectrics Laboratory in Tokyo.

  • AIST Lithium Iron Batterie Laboratorium
    AIST Lithium Ion Battery Laboratory

    Visit to the AIST Lithium Ion Battery Laboratory in Tokyo. In future, DLR and AIST will conduct joint research to extend battery life.

The German Aerospace Center (Deutsches Zentrum für Luft- und Raumfahrt; DLR), the Japanese space agency, JAXA, and the Nationale Institute of Advanced Industrial Science and Technology in Japan (AIST) signed two cooperation agreements on 21 September 2017 in Tokyo. The research institutes will collaborate in future on the development of high-performance and durable batteries for space missions. The scientists will also conduct research to develop thermoelectric generators, as well as standards to measure the efficiency of their performance.

"In AIST and JAXA, DLR has found two research institutes that are highly regarded on the international stage and with whom it can explore extremely topical issues of batteries and thermoelectric energy generators. This opens up many opportunities to pool competencies and will likely produce rapid progress in joint developments," said Pascale Ehrenfreund, Chair of the DLR Executive Board, during the signing of the cooperation agreements in Tokyo.

More durable batteries for space missions

In the coming years, the Department of Computational Electrochemistry at the DLR Institute of Engineering Thermodynamics will collaborate with Japanese researchers on the development of high-performance and durable batteries for space missions. Among other things, their research in this field will focus on the Japanese satellite mission REIMEI. This satellite was equipped with one of the first modern lithium-ion batteries  that has been operating for over 10 years already in space and will continue to do so for several years. Data on its battery performance has been collected since REIMEI's launch. This unique database will allow the DLR scientists to continue optimising their highly precise battery simulation. The aim is to develop a simulation method and to acquire data with which the battery condition can be predicted and influenced exactly.

The Department of Computational Electrochemistry is among the world's leading research facilities that is able to investigate and create 3D simulations of the processes at play inside a battery down to the microscale of the electrode structure. The researchers are therefore in a position to detect signs of ageing and fatigue and to identify their causes. The cycle life of the battery can be increased by means of improved design and optimised charging and discharging cycles. The research is highly relevant for electromobility and terrestrial applications as well, given the spiralling importance of batteries as energy storage units. This cooperation with AIST and JAXA is an outstanding opportunity to deploy the competencies and resources of the participating institutions in a more targeted form.

Faster development based on international standards for thermoelectric generators

Thermoelectric generators (TEGs) convert waste heat from combustion processes into electrical energy. They can be used to increase energy efficiency in automobiles, aircraft and in stationary applications, and are suitable as independent, mobile electricity sources as well. In automobiles, for instance, converting the waste heat in exhaust fumes into electrical energy for the vehicle is expected to reduce fuel consumption by up to five percent. Laboratories worldwide are creating increasingly efficient modules – a precondition for the development of many new applications. In addition to solutions for industrial integration, another requirement for smooth transfer into the practical arena is the definition of standardised measurement procedures to determine the efficiency and performance of the TEG modules, which so far has not been done either at a national or international level. Measurement uncertainties of more than 15 percent continue to occur regularly with current measurement techniques. This is inadequate for scientific investigations and industrial developments and is delaying the market penetration of thermoelectric systems across all areas of application. Joint performance of more realistic testing will narrow the gap to the successful roll-out of a technology that has the potential to significantly reduce emissions and greenhouse gases, for instance in passenger and freight transport.

In future, the DLR Institute of Materials Research, the Institute of Vehicle Concepts and AIST will work on precise measurement procedures to obtain more meaningful measurement results. First, this will advance standardisation of these methods to enable reproducible and comparable findings that are in line with scientific requirements. Second, the thermoelectric generators will be measured more realistically when integrated into a motor vehicle and their efficiency can thus be improved. Intense research of thermoelectric materials and systems is currently ongoing in Japan and in Germany – both by the scientific community and in industry. Defined standards should enable the faster developments of TEGs in future. The partners will therefore be able to offer crucial support to manufacturers of thermoelectric generators and measurement systems in the market introduction of their products.

Last modified:
28/09/2017 13:20:53

Contacts

 

Dorothee Bürkle
German Aerospace Center (DLR)

Media Relations, Energy and Transport Research

Tel.: +49 2203 601-3492

Fax: +49 2203 601-3249
Dr. Niklas Reinke
Deutsches Zentrum für Luft- und Raumfahrt (DLR) - German Aerospace Center

Tel.: +49 228 447-394

Fax: +49 228 447-386
Prof. Dr. Arnulf Latz
German Aerospace Center (DLR)

DLR Institute of Engineering Thermodynamics

Tel.: +49 731 5034084
Pawel Ziolkowski
German Aerospace Center (DLR)

Thermoelectric Materials and Systems

Tel.: +49 22 036013-576
Martin Kober
German Aerospace Center (DLR)

Institute of Vehicle Concepts, Alternative Energy Converters

Tel.: +49 711 6862-457
Dr Thorsten Nix
German Aerospace Center (DLR)

International Cooperation

Tel.: +49 2203 601-2177