Conceptual study of superconducting urban area power systems

Efficient transmission, distribution and usage of electricity are fundamental requirements for providing citizens, societies and economies with essential energy resources. It will be a major future challenge to integrate more sustainable generation resources, to meet growing electricity demand and t...

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Published inJournal of physics. Conference series Vol. 234; no. 3; p. 032041
Main Authors Noe, Mathias, Bach, Robert, Prusseit, Werner, Willén, Dag, Gold-acker, Wilfried, Poelchau, Juri, Linke, Christian
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.06.2010
Subjects
Cables
Cooling systems
Current limiters
Electric power demand
Electric power distribution
Electric power systems
Electricity
Energy sources
Large scale integration
Physics
Power management
R&D
Research & development
Superconductivity
Urban areas
Voltage drop
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Summary:Efficient transmission, distribution and usage of electricity are fundamental requirements for providing citizens, societies and economies with essential energy resources. It will be a major future challenge to integrate more sustainable generation resources, to meet growing electricity demand and to renew electricity networks. Research and development on superconducting equipment and components have an important role to play in addressing these challenges. Up to now, most studies on superconducting applications in power systems have been concentrated on the application of specific devices like for example cables and current limiters. In contrast to this, the main focus of our study is to show the consequence of a large scale integration of superconducting power equipment in distribution level urban power systems. Specific objectives are to summarize the state-of-the-art of superconducting power equipment including cooling systems and to compare the superconducting power system with respect to energy and economic efficiency with conventional solutions. Several scenarios were considered starting from the replacement of an existing distribution level sub-grid up to a full superconducting urban area distribution level power system. One major result is that a full superconducting urban area distribution level power system could be cost competitive with existing solutions in the future. In addition to that, superconducting power systems offer higher energy efficiency as well as a number of technical advantages like lower voltage drops and improved stability.
ISSN:1742-6596
1742-6588
1742-6596
DOI:10.1088/1742-6596/234/3/032041