Development of Robust Metal-Supported SOFCs and Stack Components in EU METSAPP Consortium

Research output: Contribution to journalJournal article – Annual report year: 2017Researchpeer-review

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Development of Robust Metal-Supported SOFCs and Stack Components in EU METSAPP Consortium. / Sudireddy, Bhaskar Reddy; Nielsen, Jimmi; Persson, Åsa Helen; Thydén, Karl Tor Sune; Brodersen, Karen; Ramousse, Severine; Neagu, D.; Stefan, E.; Irvine, J. T. S.; Geisler, H.; Weber, A.; Reiss, Georg ; Schauperl, R.; Rechberger, J.; Froitzheim, J.; Sachitanand, R.; Falk-Windisch, H.; Svensson, J. E.; Lundberg, M. W.; Berger, R.; Westlinder, J.; Hornauer, S.; Kiefer, T.

In: Fuel Cells, Vol. 17, No. 4, 2017, p. 508-516.

Research output: Contribution to journalJournal article – Annual report year: 2017Researchpeer-review

Harvard

Sudireddy, BR, Nielsen, J, Persson, ÅH, Thydén, KTS, Brodersen, K, Ramousse, S, Neagu, D, Stefan, E, Irvine, JTS, Geisler, H, Weber, A, Reiss, G, Schauperl, R, Rechberger, J, Froitzheim, J, Sachitanand, R, Falk-Windisch, H, Svensson, JE, Lundberg, MW, Berger, R, Westlinder, J, Hornauer, S & Kiefer, T 2017, 'Development of Robust Metal-Supported SOFCs and Stack Components in EU METSAPP Consortium', Fuel Cells, vol. 17, no. 4, pp. 508-516. https://doi.org/10.1002/fuce.201600191

APA

CBE

Sudireddy BR, Nielsen J, Persson ÅH, Thydén KTS, Brodersen K, Ramousse S, Neagu D, Stefan E, Irvine JTS, Geisler H, Weber A, Reiss G, Schauperl R, Rechberger J, Froitzheim J, Sachitanand R, Falk-Windisch H, Svensson JE, Lundberg MW, Berger R, Westlinder J, Hornauer S, Kiefer T. 2017. Development of Robust Metal-Supported SOFCs and Stack Components in EU METSAPP Consortium. Fuel Cells. 17(4):508-516. https://doi.org/10.1002/fuce.201600191

MLA

Vancouver

Author

Sudireddy, Bhaskar Reddy ; Nielsen, Jimmi ; Persson, Åsa Helen ; Thydén, Karl Tor Sune ; Brodersen, Karen ; Ramousse, Severine ; Neagu, D. ; Stefan, E. ; Irvine, J. T. S. ; Geisler, H. ; Weber, A. ; Reiss, Georg ; Schauperl, R. ; Rechberger, J. ; Froitzheim, J. ; Sachitanand, R. ; Falk-Windisch, H. ; Svensson, J. E. ; Lundberg, M. W. ; Berger, R. ; Westlinder, J. ; Hornauer, S. ; Kiefer, T. / Development of Robust Metal-Supported SOFCs and Stack Components in EU METSAPP Consortium. In: Fuel Cells. 2017 ; Vol. 17, No. 4. pp. 508-516.

Bibtex

@article{776c3d9acb55481e8d869e60d47299e4,
title = "Development of Robust Metal-Supported SOFCs and Stack Components in EU METSAPP Consortium",
abstract = "The potential of MS-SOFCs was demonstrated through the previous EU METSOFC project, which concluded that the development of oxidation resistant novel metal-supported solid oxide fule cell (MS-SOFC) design and stack is the requirement to advance this technology to the next level. The following EU METSAPP project has been executed with an overall aim of developing advanced metal-supported cells and stacks based on a robust, reliable and up-scalable technology. During the project, oxidation resistant nanostructured anodes based on modified SrTiO3 were developed and integrated into MS-SOFCs to enhance their robustness. In addition, the manufacturing of metal-supported cells with different geometries, scalability of the manufacturing process was demonstrated and more than 200 cells with an area of ∼150 cm2 were produced. The electrochemical performance of different cell generations was evaluated and best performance and stability combination was observed with doped SrTiO3 based anode designs. Furthermore, numerical models to understand the corrosion behavior of the MS-SOFCs were developed and validated. Finally, the cost effective concept of coated metal interconnects was developed, which resulted in 90{\%} reduction in Cr evaporation, three times lower Cr2O3 scale thickness and increased lifetime. The possibility of assembling these cells into two radically different stack designs was demonstrated.",
author = "Sudireddy, {Bhaskar Reddy} and Jimmi Nielsen and Persson, {{\AA}sa Helen} and Thyd{\'e}n, {Karl Tor Sune} and Karen Brodersen and Severine Ramousse and D. Neagu and E. Stefan and Irvine, {J. T. S.} and H. Geisler and A. Weber and Georg Reiss and R. Schauperl and J. Rechberger and J. Froitzheim and R. Sachitanand and H. Falk-Windisch and Svensson, {J. E.} and Lundberg, {M. W.} and R. Berger and J. Westlinder and S. Hornauer and T. Kiefer",
note = "Paper presented at the 12th EUROPEAN SOFC & SOE FORUM (EFCF2016), July 5–8, 2016 held in Lucerne, Switzerland. Organized by the European Fuel Cells Forum",
year = "2017",
doi = "10.1002/fuce.201600191",
language = "English",
volume = "17",
pages = "508--516",
journal = "Fuel Cells",
issn = "1615-6846",
publisher = "Wiley - V C H Verlag GmbH & Co. KGaA",
number = "4",

}

RIS

TY - JOUR

T1 - Development of Robust Metal-Supported SOFCs and Stack Components in EU METSAPP Consortium

AU - Sudireddy, Bhaskar Reddy

AU - Nielsen, Jimmi

AU - Persson, Åsa Helen

AU - Thydén, Karl Tor Sune

AU - Brodersen, Karen

AU - Ramousse, Severine

AU - Neagu, D.

AU - Stefan, E.

AU - Irvine, J. T. S.

AU - Geisler, H.

AU - Weber, A.

AU - Reiss, Georg

AU - Schauperl, R.

AU - Rechberger, J.

AU - Froitzheim, J.

AU - Sachitanand, R.

AU - Falk-Windisch, H.

AU - Svensson, J. E.

AU - Lundberg, M. W.

AU - Berger, R.

AU - Westlinder, J.

AU - Hornauer, S.

AU - Kiefer, T.

N1 - Paper presented at the 12th EUROPEAN SOFC & SOE FORUM (EFCF2016), July 5–8, 2016 held in Lucerne, Switzerland. Organized by the European Fuel Cells Forum

PY - 2017

Y1 - 2017

N2 - The potential of MS-SOFCs was demonstrated through the previous EU METSOFC project, which concluded that the development of oxidation resistant novel metal-supported solid oxide fule cell (MS-SOFC) design and stack is the requirement to advance this technology to the next level. The following EU METSAPP project has been executed with an overall aim of developing advanced metal-supported cells and stacks based on a robust, reliable and up-scalable technology. During the project, oxidation resistant nanostructured anodes based on modified SrTiO3 were developed and integrated into MS-SOFCs to enhance their robustness. In addition, the manufacturing of metal-supported cells with different geometries, scalability of the manufacturing process was demonstrated and more than 200 cells with an area of ∼150 cm2 were produced. The electrochemical performance of different cell generations was evaluated and best performance and stability combination was observed with doped SrTiO3 based anode designs. Furthermore, numerical models to understand the corrosion behavior of the MS-SOFCs were developed and validated. Finally, the cost effective concept of coated metal interconnects was developed, which resulted in 90% reduction in Cr evaporation, three times lower Cr2O3 scale thickness and increased lifetime. The possibility of assembling these cells into two radically different stack designs was demonstrated.

AB - The potential of MS-SOFCs was demonstrated through the previous EU METSOFC project, which concluded that the development of oxidation resistant novel metal-supported solid oxide fule cell (MS-SOFC) design and stack is the requirement to advance this technology to the next level. The following EU METSAPP project has been executed with an overall aim of developing advanced metal-supported cells and stacks based on a robust, reliable and up-scalable technology. During the project, oxidation resistant nanostructured anodes based on modified SrTiO3 were developed and integrated into MS-SOFCs to enhance their robustness. In addition, the manufacturing of metal-supported cells with different geometries, scalability of the manufacturing process was demonstrated and more than 200 cells with an area of ∼150 cm2 were produced. The electrochemical performance of different cell generations was evaluated and best performance and stability combination was observed with doped SrTiO3 based anode designs. Furthermore, numerical models to understand the corrosion behavior of the MS-SOFCs were developed and validated. Finally, the cost effective concept of coated metal interconnects was developed, which resulted in 90% reduction in Cr evaporation, three times lower Cr2O3 scale thickness and increased lifetime. The possibility of assembling these cells into two radically different stack designs was demonstrated.

U2 - 10.1002/fuce.201600191

DO - 10.1002/fuce.201600191

M3 - Journal article

VL - 17

SP - 508

EP - 516

JO - Fuel Cells

JF - Fuel Cells

SN - 1615-6846

IS - 4

ER -