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International Centre for Sustainable Development (IZNE)

Sustainable mobility

The sustainable restructuring of the energy and transport infrastructure requires solutions that are actually climate-friendly and low in emissions. The development and investigation of alternative concepts and the evaluation of the associated environmental impacts are part of the research at the IZNE. The life cycle assessment method is used for ecological evaluation and optimization. Context-dependent solutions are pursued for different modes of transport, regions and countries, with an increasing focus on issues of sector coupling using Power-to-X technologies.

Air traffic

For international air traffic, there is the possibility of developing and using synthetic electricity- and bio-based fuels. It should always be critically questioned whether these fuels actually contribute positively to climate protection. The life cycle analysis method is an important and helpful tool here. IZNE is monitoring current technical developments in this field with regard to their ecological, economic and social sustainability.  

One way to make flying more environmentally friendly is to plan climate-optimized flight routes that take carbon dioxide emissions and contrail formation into account. This can massively reduce the climate impact of aircraft, even to the point where the effect can be reversed from a net warming to a net cooling effect. The feasibility of such environmentally optimized flight route planning was demonstrated in a cooperation between the German Aerospace Center (DLR), the airline Lufthansa, the German Meteorological Service (DWD) and German Air Traffic Control (DFS) as part of the Federal Ministry of Education and Research (BMBF) funding programme klimazwei and confirmed by further studies.

 

Electromobility and sector coupling

For regional and inner-city automobility, the use of electrochemical storage and thus the expansion of electromobility is an important option.  Realising this sustainably is accordingly one of the social challenges in the research strategy of the state of NRW and a declared goal of the city of Bonn and the Rhein-Sieg district. The IZNE supports the transformation of the city region towards more sustainable mobility within the framework of joint inter- and transdisciplinary research projects anchored in the region.

Another important building block for the transport turnaround is the use of hydrogen as an energy carrier. Hydrogen as a central component of sector coupling enables efficient integration of the electricity, industrial and transport sectors. H-BRS is a member of the regional hydrogen network HyCologne and actively supports the Rhineland hydrogen region.

Relevant research projects

Titelbild Projekt reTURN

reTURN - Recycling organic residues and CO2 into fuels

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NeLiPro – Next Level Lightweight Production

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ELaBoR - Infrastructure for car charging stations

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eTa - efficient transportation alternatives

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FlexHyX - Flexibility options of production and usage of renewable hydrogen

Further topics

Contact

Stefanie Meilinger Portrait Nov 23 IZNE

Stefanie Meilinger

Professor for Sustainable Technologies, esp. Energy Efficiency and Renewable Energies, Director of the International Centre for Sustainable Development (IZNE), Department Engineering and Communication (IWK)

Research fields

Location

Sankt Augustin

Room

F 321

Address

Grantham-Allee 20

53757 Sankt Augustin