Anais do Congresso Anual da ABM


ISSN 2594-5327

69° Congresso Anual da ABM - Internacional vol. 69, num.69 (2014)


Título

METALLIC INTERCONNECTS FOR APPLICATION IN HIGH TEMPERATURE SOLID OXIDE FUEL CELLS (SOFCS): THERMODYNAMIC STUDY OF THE OXIDATION OF FERRITIC STAINLESS STEELS

METALLIC INTERCONNECTS FOR APPLICATION IN HIGH TEMPERATURE SOLID OXIDE FUEL CELLS (SOFCS): THERMODYNAMIC STUDY OF THE OXIDATION OF FERRITIC STAINLESS STEELS

DOI

10.5151/1516-392X-25077

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Resumo

The reduction in SOFC operating temperature due to recent development in materials and fabrication techniques enables the use of ferritic stainless steels as interconnects for SOFCs. Ferritic stainless steels offer many advantages over traditional ceramic interconnects, such as higher thermal and electronic conductivity, as well as relative ease of fabrication. However, the formation of chromium oxide on ferritic stainless steel results in an increase in ohmic resistance and can lead to the loss of cathode catalytic activity (due to Cr volatilization, with cathode poisoning). The oxide growth depends on several factors, such as steel composition, temperature, oxygen partial pressure. In this way, knowing the phase stability, the oxidation behavior of the material and the oxidation kinetics is of great interest. In this context, a thermodynamic study of the oxidation of ferritic stainless steel 430 under oxidizing atmosphere (cathode), at the temperature of 750ºC, is carried out. As one can see, the thermodynamic system can be very complex, involving several phases (chromium oxide, (Fe,Cr,Mn)3O4 Spinel, iron-chromium oxides, etc.). The effect of oxygen partial pressure and alloying elements on phase distribution is evaluated. Thermodynamic modeling is compared with experimental results from literature.

 

The reduction in SOFC operating temperature due to recent development in materials and fabrication techniques enables the use of ferritic stainless steels as interconnects for SOFCs. Ferritic stainless steels offer many advantages over traditional ceramic interconnects, such as higher thermal and electronic conductivity, as well as relative ease of fabrication. However, the formation of chromium oxide on ferritic stainless steel results in an increase in ohmic resistance and can lead to the loss of cathode catalytic activity (due to Cr volatilization, with cathode poisoning). The oxide growth depends on several factors, such as steel composition, temperature, oxygen partial pressure. In this way, knowing the phase stability, the oxidation behavior of the material and the oxidation kinetics is of great interest. In this context, a thermodynamic study of the oxidation of ferritic stainless steel 430 under oxidizing atmosphere (cathode), at the temperature of 750ºC, is carried out. As one can see, the thermodynamic system can be very complex, involving several phases (chromium oxide, (Fe,Cr,Mn)3O4 Spinel, iron-chromium oxides, etc.). The effect of oxygen partial pressure and alloying elements on phase distribution is evaluated. Thermodynamic modeling is compared with experimental results from literature.

Palavras-chave

Oxidation; Ferritic stainless steels; Thermodynamics; Phase diagram

Oxidation; Ferritic stainless steels; Thermodynamics; Phase diagram

Como citar

Aline Lima da Silva; Nestor Cezar Heck. METALLIC INTERCONNECTS FOR APPLICATION IN HIGH TEMPERATURE SOLID OXIDE FUEL CELLS (SOFCS): THERMODYNAMIC STUDY OF THE OXIDATION OF FERRITIC STAINLESS STEELS , p. 8887-8895. In: 69° Congresso Anual da ABM - Internacional, São Paulo - Brasil, 2014.
ISSN: 2594-5327 , DOI 10.5151/1516-392X-25077