Towards solid oxide electrolysis plants in 2020

Ming Chen, Peter Blennow, Brian Vad Mathiesen, Zhe Zhang

Research output: Contribution to conference without publisher/journalPosterResearch

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Abstract

The goal of the project is to further improve performance and durability of solid oxide electrolysis cells (SOECs) and stacks targeting applications specifically for regulating the future Danish power system with a high amount of fluctuating renewable energies, and at the same time enhance the cost competitiveness and environmental friendliness of the SOEC technology, with an ultimate goal of making the SOEC technology ready as a key player in the transition to renewable energy available from around 2020. The current project is based on the previous line of SOEC-focused ForskEL projects (ForskEL 10609 “Development of SOEC cells and stacks” and ForskEL 12013 “Solid oxide electrolysis for grid balancing”), of which ForskEL 12013 was awarded with the ForskEL award as the best finalized ForskEL project in 2015.
Original languageEnglish
Publication date2017
Publication statusPublished - 2017
EventDen danske brint- og brændselscelledag 2017 - Odense, Denmark
Duration: 28 Nov 201728 Nov 2017

Conference

ConferenceDen danske brint- og brændselscelledag 2017
CountryDenmark
CityOdense
Period28/11/201728/11/2017

Fingerprint

Regenerative fuel cells
Electrolysis
Oxides
Durability
Costs

Keywords

  • electrolysis

Cite this

Chen, M., Blennow, P., Mathiesen, B. V., & Zhang, Z. (2017). Towards solid oxide electrolysis plants in 2020. Poster session presented at Den danske brint- og brændselscelledag 2017, Odense, Denmark.
Chen, Ming ; Blennow, Peter ; Mathiesen, Brian Vad ; Zhang, Zhe. / Towards solid oxide electrolysis plants in 2020. Poster session presented at Den danske brint- og brændselscelledag 2017, Odense, Denmark.
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Chen, M, Blennow, P, Mathiesen, BV & Zhang, Z 2017, 'Towards solid oxide electrolysis plants in 2020' Den danske brint- og brændselscelledag 2017, Odense, Denmark, 28/11/2017 - 28/11/2017, .

Towards solid oxide electrolysis plants in 2020. / Chen, Ming; Blennow, Peter; Mathiesen, Brian Vad; Zhang, Zhe.

2017. Poster session presented at Den danske brint- og brændselscelledag 2017, Odense, Denmark.

Research output: Contribution to conference without publisher/journalPosterResearch

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AU - Chen, Ming

AU - Blennow, Peter

AU - Mathiesen, Brian Vad

AU - Zhang, Zhe

PY - 2017

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N2 - The goal of the project is to further improve performance and durability of solid oxide electrolysis cells (SOECs) and stacks targeting applications specifically for regulating the future Danish power system with a high amount of fluctuating renewable energies, and at the same time enhance the cost competitiveness and environmental friendliness of the SOEC technology, with an ultimate goal of making the SOEC technology ready as a key player in the transition to renewable energy available from around 2020. The current project is based on the previous line of SOEC-focused ForskEL projects (ForskEL 10609 “Development of SOEC cells and stacks” and ForskEL 12013 “Solid oxide electrolysis for grid balancing”), of which ForskEL 12013 was awarded with the ForskEL award as the best finalized ForskEL project in 2015.

AB - The goal of the project is to further improve performance and durability of solid oxide electrolysis cells (SOECs) and stacks targeting applications specifically for regulating the future Danish power system with a high amount of fluctuating renewable energies, and at the same time enhance the cost competitiveness and environmental friendliness of the SOEC technology, with an ultimate goal of making the SOEC technology ready as a key player in the transition to renewable energy available from around 2020. The current project is based on the previous line of SOEC-focused ForskEL projects (ForskEL 10609 “Development of SOEC cells and stacks” and ForskEL 12013 “Solid oxide electrolysis for grid balancing”), of which ForskEL 12013 was awarded with the ForskEL award as the best finalized ForskEL project in 2015.

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Chen M, Blennow P, Mathiesen BV, Zhang Z. Towards solid oxide electrolysis plants in 2020. 2017. Poster session presented at Den danske brint- og brændselscelledag 2017, Odense, Denmark.