SOFC stacks for mobile applications with excellent robustness towards thermal stresses

A. Hagen; A. C. Wulff; P. Zielke; X. Sun; B. Talic; I. Ritucci; H. L. Frandsen; S. H. Jensen; W. R. Kiebach; P. V. Hendriksen

doi:10.1016/j.ijhydene.2020.07.159

SOFC stacks for mobile applications with excellent robustness towards thermal stresses

A. Hagen^*, A. C. Wulff, P. Zielke, X. Sun, B. Talic, I. Ritucci, H. L. Frandsen, S. H. Jensen, W. R. Kiebach, P. V. Hendriksen

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

30 Citationer (Scopus)

Abstract

Solid oxide fuel cells (SOFC) are attractive power units for mobile applications, like auxiliary power units or range extenders, due to high electrical efficiencies, avoidance of noble metals, fuel flexibility ranging from hydrogen to hydrogen carriers such as ammonia, methanol or e-gas, and tolerance towards CO and other fuel impurities. Among challenges hindering more wide-spread use are the robustness under thermal cycling. The current study employs short stacks containing anode or metal supported SOFCs, which were subjected to thermal cycles in a furnace and under more realistic conditions without external furnace. Heating from 100 °C to operating temperature was accomplished by sending hot air through the cathode compartment and heating from bottom (and top) of the stack, reaching a fastest ramping time of ca. 1 h. The stacks remained intact under severe temperature gradients of at least 20 °C/cm for anode supported and 30 °C/cm for metal supported SOFCs.

Originalsprog	Engelsk
Tidsskrift	International Journal of Hydrogen Energy
Vol/bind	45
Udgave nummer	53
Sider (fra-til)	29201-29211
Antal sider	11
ISSN	0360-3199
DOI	https://doi.org/10.1016/j.ijhydene.2020.07.159
Status	Udgivet - 30 okt. 2020

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© 2020 Hydrogen Energy Publications LLC

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title = "SOFC stacks for mobile applications with excellent robustness towards thermal stresses",

abstract = "Solid oxide fuel cells (SOFC) are attractive power units for mobile applications, like auxiliary power units or range extenders, due to high electrical efficiencies, avoidance of noble metals, fuel flexibility ranging from hydrogen to hydrogen carriers such as ammonia, methanol or e-gas, and tolerance towards CO and other fuel impurities. Among challenges hindering more wide-spread use are the robustness under thermal cycling. The current study employs short stacks containing anode or metal supported SOFCs, which were subjected to thermal cycles in a furnace and under more realistic conditions without external furnace. Heating from 100 °C to operating temperature was accomplished by sending hot air through the cathode compartment and heating from bottom (and top) of the stack, reaching a fastest ramping time of ca. 1 h. The stacks remained intact under severe temperature gradients of at least 20 °C/cm for anode supported and 30 °C/cm for metal supported SOFCs.",

keywords = "Fast thermal cycling, Metal & anode supported SOFC, Mobile application, Robustness, SOFC stack, Thermal gradients",

author = "A. Hagen and Wulff, {A. C.} and P. Zielke and X. Sun and B. Talic and I. Ritucci and Frandsen, {H. L.} and Jensen, {S. H.} and Kiebach, {W. R.} and Hendriksen, {P. V.}",

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year = "2020",

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doi = "10.1016/j.ijhydene.2020.07.159",

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TY - JOUR

T1 - SOFC stacks for mobile applications with excellent robustness towards thermal stresses

AU - Hagen, A.

AU - Wulff, A. C.

AU - Zielke, P.

AU - Sun, X.

AU - Talic, B.

AU - Ritucci, I.

AU - Frandsen, H. L.

AU - Jensen, S. H.

AU - Kiebach, W. R.

AU - Hendriksen, P. V.

PY - 2020/10/30

Y1 - 2020/10/30

N2 - Solid oxide fuel cells (SOFC) are attractive power units for mobile applications, like auxiliary power units or range extenders, due to high electrical efficiencies, avoidance of noble metals, fuel flexibility ranging from hydrogen to hydrogen carriers such as ammonia, methanol or e-gas, and tolerance towards CO and other fuel impurities. Among challenges hindering more wide-spread use are the robustness under thermal cycling. The current study employs short stacks containing anode or metal supported SOFCs, which were subjected to thermal cycles in a furnace and under more realistic conditions without external furnace. Heating from 100 °C to operating temperature was accomplished by sending hot air through the cathode compartment and heating from bottom (and top) of the stack, reaching a fastest ramping time of ca. 1 h. The stacks remained intact under severe temperature gradients of at least 20 °C/cm for anode supported and 30 °C/cm for metal supported SOFCs.

AB - Solid oxide fuel cells (SOFC) are attractive power units for mobile applications, like auxiliary power units or range extenders, due to high electrical efficiencies, avoidance of noble metals, fuel flexibility ranging from hydrogen to hydrogen carriers such as ammonia, methanol or e-gas, and tolerance towards CO and other fuel impurities. Among challenges hindering more wide-spread use are the robustness under thermal cycling. The current study employs short stacks containing anode or metal supported SOFCs, which were subjected to thermal cycles in a furnace and under more realistic conditions without external furnace. Heating from 100 °C to operating temperature was accomplished by sending hot air through the cathode compartment and heating from bottom (and top) of the stack, reaching a fastest ramping time of ca. 1 h. The stacks remained intact under severe temperature gradients of at least 20 °C/cm for anode supported and 30 °C/cm for metal supported SOFCs.

KW - Fast thermal cycling

KW - Metal & anode supported SOFC

KW - Mobile application

KW - Robustness

KW - SOFC stack

KW - Thermal gradients

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U2 - 10.1016/j.ijhydene.2020.07.159

DO - 10.1016/j.ijhydene.2020.07.159

M3 - Journal article

AN - SCOPUS:85089355830

SN - 0360-3199

VL - 45

SP - 29201

EP - 29211

JO - International Journal of Hydrogen Energy

JF - International Journal of Hydrogen Energy

IS - 53

ER -

SOFC stacks for mobile applications with excellent robustness towards thermal stresses

Abstract

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