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Thermoelectric power of solid oxide fuel cell materials

Abstract

Thermoelectric power of state-of-the-art and alternative solid oxide fuel cell (SOFC) materials is investigated. Results are explained by existing theory on thermoelectric power of ionic, electronic and mixed conductors. The formulas are discussed. Methods to determine the ionic transference number and to detect predominant proton conduction are proposed. The thermoelectric effects in an SOFC under operation are estimated. In spite of the Peltier heat being found to be large, the thermoelectric effects in an SOFC will be of limited importance. (au) (7 tabs., 43 ills., 239 refs.)
Authors:
Publication Date:
Oct 01, 1994
Product Type:
Thesis/Dissertation
Report Number:
RISO-R-762(EN)
Reference Number:
SCA: 300501; PA: DK-95:001092; EDB-95:021777; SN: 95001320406
Resource Relation:
Other Information: TH: Thesis (ph.D.); PBD: Oct 1994
Subject:
30 DIRECT ENERGY CONVERSION; SOLID ELECTROLYTE FUEL CELLS; THERMOELECTRIC PROPERTIES; MATERIALS TESTING; IONIC CONDUCTIVITY; DOPED MATERIALS; CHROMIUM OXIDES; MANGANESE OXIDES; RARE EARTH COMPOUNDS; ALUMINATES; SINTERING; PRESSING; ZIRCONIUM OXIDES; 300501; DESIGN AND DEVELOPMENT
OSTI ID:
10110432
Research Organizations:
Risoe National Lab., Roskilde (Denmark). Materials Dept.; Danmarks Tekniske Univ., Lyngby (Denmark)
Country of Origin:
Denmark
Language:
English
Other Identifying Numbers:
Other: ON: DE95737593; ISBN 87-550-2001-1; TRN: DK9501092
Availability:
OSTI; NTIS; Also available from Risoe Library, P.O. Box 49, DK-4000 Roskilde, Denmark
Submitting Site:
DK
Size:
154 p.
Announcement Date:
Jun 30, 2005

Citation Formats

Ahlgren, E O. Thermoelectric power of solid oxide fuel cell materials. Denmark: N. p., 1994. Web.
Ahlgren, E O. Thermoelectric power of solid oxide fuel cell materials. Denmark.
Ahlgren, E O. 1994. "Thermoelectric power of solid oxide fuel cell materials." Denmark.
@misc{etde_10110432,
title = {Thermoelectric power of solid oxide fuel cell materials}
author = {Ahlgren, E O}
abstractNote = {Thermoelectric power of state-of-the-art and alternative solid oxide fuel cell (SOFC) materials is investigated. Results are explained by existing theory on thermoelectric power of ionic, electronic and mixed conductors. The formulas are discussed. Methods to determine the ionic transference number and to detect predominant proton conduction are proposed. The thermoelectric effects in an SOFC under operation are estimated. In spite of the Peltier heat being found to be large, the thermoelectric effects in an SOFC will be of limited importance. (au) (7 tabs., 43 ills., 239 refs.)}
place = {Denmark}
year = {1994}
month = {Oct}
}