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Book cover for Innovations in Fuel Cell Technologies
Energy and Environment Series
Innovations in Fuel Cell TechnologiesCheck Access
Edited by
Robert Steinberger-Wilckens
Robert Steinberger-Wilckens
University of Birmingham, UK
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Werner Lehnert
Werner Lehnert
Institute of Energy Research, Germany
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DOI:
https://doi.org/10.1039/9781849732109
Hardback ISBN:
978-1-84973-033-4
PDF ISBN:
978-1-84973-210-9
No. of Pages:
350
Publication date:
18 Oct 2010
Book Chapter

Chapter 6: Direct Carbon Fuel Cells Check Access

By
P. Desclaux
P. Desclaux
ZAE Bayern, Division 1, Walther-Meiner-Str. 6
85748 Garching
Germany
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;
S. Nürnberger
S. Nürnberger
ZAE Bayern, Division 1, Walther-Meiner-Str. 6
85748 Garching
Germany
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;
U. Stimming
U. Stimming
ZAE Bayern, Division 1, Walther-Meiner-Str. 6
85748 Garching
Germany
TU München, Department of Physics E19, James-Franck-Str. 1
85748 Garching
Germany
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Doi:
https://doi.org/10.1039/9781849732109-00190
Page range:
190 - 211

Direct carbon fuel cells (DCFCs) are high temperature fuel cells which offer the possibility to directly convert the chemical energy of carbon materials (e.g. coal, lignite, char, carbonized biomass) into electricity. In addition to using solid carbon fuels, higher overall efficiencies should be possible because the thermodynamic efficiency is close to 100 %. This means higher than those of conventional fuel cell types for gaseous fuels.

DCFC technology can employ three different electrolyte types: Molten carbonate electrolyte (liquid salt), molten hydroxide electrolyte (liquid salt) and solid oxide electrolyte (solid ceramic layer). Recently, also combined technologies have been developed.

In this chapter, all the concepts are described and their advantages and difficulties are discussed.

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