The Baden-Württemberg electromobility showcase initiative "LivingLab BWe mobil" kicked off in mid-March this year. With the goal of finding solutions for mobility in the future, Fraunhofer IAO is working on some ten projects in collaboration with its partner IAT at the University of Stuttgart and the Fraunhofer application center KEIM.
Pioneers are needed to achieve the successful implementation of sustainable mobility in Germany. Baden-Württemberg has risen to this challenge by launching the showcase initiative "LivingLab BWe mobil", which has been running in Baden-Württemberg since mid-March. The initiative involves more than 100 partners from industry, the scientific community and the public sector who are collaborating on some 40 different projects to study electromobility in practice.
With over 30 researchers in its in-house Mobility Innovation Lab engaged in finding ways of taking electromobility to the next level, Fraunhofer IAO is contributing its expertise and infrastructure to various showcase projects in the field of electromobility:
Stuttgart ServicesDevelopment of a mobility card for Stuttgart which entitles customers to use the full range of mobility services and other municipal facilities. Modeled on the Octopus Card in Hong Kong. Partners: SSB, VVS and many more.
Key tasks include the development of business models for charging infrastructure, the establishment of a micro smart grid, the integration of fleet and charge management solutions, city logistics and intermodal mobility solutions. In addition to the projects featured in the LivingLab BWe mobil showcase initiative, Fraunhofer IAO also carries out research as one of 80 partners integrated in the South-West Electromobility Cluster of Excellence, which is funded by the German Federal Ministry of Education and Research (BMBF).
Short videos presenting the showcase projects are available on the Internet at http://vimeo.com/channels/livinglabbwemobil/videos The PDF document http://www.e-mobilbw.de/Resources/LivingLab_Projektuebersicht_130312.pdf contains an overview of the projects including brief summaries and information on the participating partners.Contact:
Juliane Segedi | Fraunhofer IAO
Spherical tokamak as model for next steps in fusion energy
25.08.2016 | DOE/Princeton Plasma Physics Laboratory
An effective and low-cost solution for storing solar energy
25.08.2016 | Ecole Polytechnique Fédérale de Lausanne
Scientists and engineers striving to create the next machine-age marvel--whether it be a more aerodynamic rocket, a faster race car, or a higher-efficiency jet...
Waveguides are widely used for filtering, confining, guiding, coupling or splitting beams of visible light. However, creating waveguides that could do the same for X-rays has posed tremendous challenges in fabrication, so they are still only in an early stage of development.
In the latest issue of Acta Crystallographica Section A: Foundations and Advances , Sarah Hoffmann-Urlaub and Tim Salditt report the fabrication and testing of...
Electrochemists at TU Graz have managed to use monocrystalline semiconductor silicon as an active storage electrode in lithium batteries. This enables an integrated power supply to be made for microchips with a rechargeable battery.
Small electrical gadgets, such as mobile phones, tablets or notebooks, are indispensable accompaniments of everyday life. Integrated circuits in the interiors...
Recent findings indicating the possible discovery of a previously unknown subatomic particle may be evidence of a fifth fundamental force of nature, according...
A nanocrystalline material that rapidly makes white light out of blue light has been developed by KAUST researchers.
25.08.2016 | Event News
24.08.2016 | Event News
12.08.2016 | Event News
26.08.2016 | Health and Medicine
26.08.2016 | Earth Sciences
26.08.2016 | Life Sciences