Advances in Metal Supported Cells in the METSOFC EU Consortium

Research output: Contribution to journalJournal article – Annual report year: 2013Researchpeer-review

Standard

Advances in Metal Supported Cells in the METSOFC EU Consortium. / McKenna, B. J.; Christiansen, N.; Schauperl, R.; Prenninger, P.; Nielsen, Jimmi; Blennow Tullmar, Peter; Klemensø, Trine; Ramousse, Severine; Kromp, A.; Weber, A.

In: Fuel Cells, Vol. 13, No. 4, 2013, p. 592-597.

Research output: Contribution to journalJournal article – Annual report year: 2013Researchpeer-review

Harvard

McKenna, BJ, Christiansen, N, Schauperl, R, Prenninger, P, Nielsen, J, Blennow Tullmar, P, Klemensø, T, Ramousse, S, Kromp, A & Weber, A 2013, 'Advances in Metal Supported Cells in the METSOFC EU Consortium', Fuel Cells, vol. 13, no. 4, pp. 592-597. https://doi.org/10.1002/fuce.201200185

APA

McKenna, B. J., Christiansen, N., Schauperl, R., Prenninger, P., Nielsen, J., Blennow Tullmar, P., ... Weber, A. (2013). Advances in Metal Supported Cells in the METSOFC EU Consortium. Fuel Cells, 13(4), 592-597. https://doi.org/10.1002/fuce.201200185

CBE

MLA

Vancouver

Author

McKenna, B. J. ; Christiansen, N. ; Schauperl, R. ; Prenninger, P. ; Nielsen, Jimmi ; Blennow Tullmar, Peter ; Klemensø, Trine ; Ramousse, Severine ; Kromp, A. ; Weber, A. / Advances in Metal Supported Cells in the METSOFC EU Consortium. In: Fuel Cells. 2013 ; Vol. 13, No. 4. pp. 592-597.

Bibtex

@article{a0a6f7e3fe9245c8ac509d26bc670806,
title = "Advances in Metal Supported Cells in the METSOFC EU Consortium",
abstract = "The EU‐sponsored project “METSOFC”, completed at the end of 2011, resulted in a number of advancements toward implementing a mechanically robust metal support as the structural element in SOFC. Technical University of Denmark (DTU) Energy Conversion's research into planar metal supported cells (MSCs) has produced an advanced cell design with high performance and mechanical robustness. At low operation temperatures (650 °C), these cells have shown low Area‐specific resistances (ASRs): 0.35 Ω cm2 in cell tests (16 cm2 active area) and under 0.3 Ω cm2 in button cells (0.5 cm2 active area). Further success was attained with even larger cell areas of 12 × 12 cm2 squares, which facilitated integration into small stacks at Topsoe Fuel Cell having powers approaching 1/2 kW. Development of MSC stacks showed that the MSCs could achieve similar or better performance, compared to most standard industrial anode supported ceramic cells. The best stacked MSCs had power densities approaching 275 mW cm–2 (at 680 °C and 0.8 V). Furthermore, extended testing at AVL determined extra stack performance and reliability characteristics, including behavior toward sulfur and simulated diesel reformate, and tolerance to thermal cycles and load cycles. These and other key outcomes of the METSOFC consortium are covered, along with associated work supported by the Danish National Advanced Technology Foundation.",
keywords = "Degradation, Efficiency, Electrochemistry, Energy Conversion, Fuel Cell Stacks, Metal-supported Solid Oxide Cells, Robustness, SOFC",
author = "McKenna, {B. J.} and N. Christiansen and R. Schauperl and P. Prenninger and Jimmi Nielsen and {Blennow Tullmar}, Peter and Trine Klemens{\o} and Severine Ramousse and A. Kromp and A. Weber",
year = "2013",
doi = "10.1002/fuce.201200185",
language = "English",
volume = "13",
pages = "592--597",
journal = "Fuel Cells",
issn = "1615-6846",
publisher = "Wiley - V C H Verlag GmbH & Co. KGaA",
number = "4",

}

RIS

TY - JOUR

T1 - Advances in Metal Supported Cells in the METSOFC EU Consortium

AU - McKenna, B. J.

AU - Christiansen, N.

AU - Schauperl, R.

AU - Prenninger, P.

AU - Nielsen, Jimmi

AU - Blennow Tullmar, Peter

AU - Klemensø, Trine

AU - Ramousse, Severine

AU - Kromp, A.

AU - Weber, A.

PY - 2013

Y1 - 2013

N2 - The EU‐sponsored project “METSOFC”, completed at the end of 2011, resulted in a number of advancements toward implementing a mechanically robust metal support as the structural element in SOFC. Technical University of Denmark (DTU) Energy Conversion's research into planar metal supported cells (MSCs) has produced an advanced cell design with high performance and mechanical robustness. At low operation temperatures (650 °C), these cells have shown low Area‐specific resistances (ASRs): 0.35 Ω cm2 in cell tests (16 cm2 active area) and under 0.3 Ω cm2 in button cells (0.5 cm2 active area). Further success was attained with even larger cell areas of 12 × 12 cm2 squares, which facilitated integration into small stacks at Topsoe Fuel Cell having powers approaching 1/2 kW. Development of MSC stacks showed that the MSCs could achieve similar or better performance, compared to most standard industrial anode supported ceramic cells. The best stacked MSCs had power densities approaching 275 mW cm–2 (at 680 °C and 0.8 V). Furthermore, extended testing at AVL determined extra stack performance and reliability characteristics, including behavior toward sulfur and simulated diesel reformate, and tolerance to thermal cycles and load cycles. These and other key outcomes of the METSOFC consortium are covered, along with associated work supported by the Danish National Advanced Technology Foundation.

AB - The EU‐sponsored project “METSOFC”, completed at the end of 2011, resulted in a number of advancements toward implementing a mechanically robust metal support as the structural element in SOFC. Technical University of Denmark (DTU) Energy Conversion's research into planar metal supported cells (MSCs) has produced an advanced cell design with high performance and mechanical robustness. At low operation temperatures (650 °C), these cells have shown low Area‐specific resistances (ASRs): 0.35 Ω cm2 in cell tests (16 cm2 active area) and under 0.3 Ω cm2 in button cells (0.5 cm2 active area). Further success was attained with even larger cell areas of 12 × 12 cm2 squares, which facilitated integration into small stacks at Topsoe Fuel Cell having powers approaching 1/2 kW. Development of MSC stacks showed that the MSCs could achieve similar or better performance, compared to most standard industrial anode supported ceramic cells. The best stacked MSCs had power densities approaching 275 mW cm–2 (at 680 °C and 0.8 V). Furthermore, extended testing at AVL determined extra stack performance and reliability characteristics, including behavior toward sulfur and simulated diesel reformate, and tolerance to thermal cycles and load cycles. These and other key outcomes of the METSOFC consortium are covered, along with associated work supported by the Danish National Advanced Technology Foundation.

KW - Degradation

KW - Efficiency

KW - Electrochemistry

KW - Energy Conversion

KW - Fuel Cell Stacks

KW - Metal-supported Solid Oxide Cells

KW - Robustness

KW - SOFC

U2 - 10.1002/fuce.201200185

DO - 10.1002/fuce.201200185

M3 - Journal article

VL - 13

SP - 592

EP - 597

JO - Fuel Cells

JF - Fuel Cells

SN - 1615-6846

IS - 4

ER -