Abstract
Mobility is a key challenge for sustainable development. Mobility can be blamed for an increasing world-wide oil demand, poor air quality in cities and accelerated CO2 emissions. Electric vehicles seem to offer a way out of these problems, if electricity can be supplied in a sustainable fashion. What is the situation if the current German generation mix is assumed, what if the loading patterns are accounted for properly. In an extreme view a new electricity supply system only for cars is developed based on renewable energies.
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References
Bundesministerium für Verkehr, Bau und Stadtentwicklung (BMVBS) “Datensatz Mobilität in Deutschland 2008”, DLR Institut für Verkehrs-forschung, Berlin 2011.
Kuhn, P.; Kühne, M. “Optimierung des Kraftwerks- und Speicherausbaus mit einem iterativen und hybriden Modell”, 9. Fachtagung: Optimierung in der Energiewirtschaft, VDI-Berichte Nr. 2157, VDI Verlag GmbH, Düssel-dorf 2011.
Roth, H.; Kuhn, P.; Gohla-Neudecker, B. “Sustainable Mobility – Cost-Ef-fective and Zero Emission Integration of Germany‘s EV Fleet”, Procee- dings of 2nd International Conference on Clean Electrical Power – Renew-able Energy Resources Impact, IEEE, Capri (Italy) 2009, pp. 207-211.
Gohla-Neudecker, B.; Roth, H.; Wagner, U. “Nachhaltige Mobilität: An-wendungsscharfe Bereitstellung von erneuerbarer Energie für Elektro-autos”, Energie-wirtschaftliche Tagesfragen 60. Jg., Heft 4, etv Energiever-lag, Langfassung unter www.et-energie-online.de, Essen 2010, pp. 81-86.
TÜV SÜD Industrie Service GmbH. “Certification Criteria: EE01 – Certi-fication of electricity tariffs from renewable energy sources with at least 25 % recently built generation capacities”, File: CMS-Z: E-Cert 80, version 10, Munich 2008.
TÜV SÜD Industrie Service GmbH. “Certification Criteria: EE02 – Certi-fication of electricity from renewable energy sources with a simultaneous supply”, File: CMS-Z: E-Cert 82, version 10, Munich 2008.
Kandler, C. “Energiewirtschaftliche Optimierung der hauseigenen erneuer-baren Stromerzeugung zur Versorgung eines Elektrofahrzeugs”, Diploma Thesis at the Institute for Energy Economy and Application Technology, TU München 2010.
Lehrstuhl für Fahrzeugtechnik (FTM) of Technische Universität München „NEDC simulations of final energy demand of the MUTE“, Munich 2011.
Daimler Smart Fortwo, http://www.smart.de, 2012.
Bundesministerium für Wirtschaft und Technologie (BMWi) “Die Ent-wicklung der Energiemärkte bis 2030 – Energieprognose 2009”, IER, RWI, ZEW 2010.
Renault ZE Twizy, http://www.renault-ze.com, 2012.
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Gohla-Neudecker, B., Kandler, C., Hamacher, T. (2013). Sustainable Mobility – The MUTE as a Prime Example for Clean and Affordable Mobility. In: Lienkamp, M. (eds) Conference on Future Automotive Technology. Springer Vieweg, Wiesbaden. https://doi.org/10.1007/978-3-658-01141-3_3
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DOI: https://doi.org/10.1007/978-3-658-01141-3_3
Publisher Name: Springer Vieweg, Wiesbaden
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Online ISBN: 978-3-658-01141-3
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