Integration of a rSOC-system to industrial processes

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Integration of a rSOC-system to industrial processes. / Banasiak, David; Gallaun, Markus; Kienberger, Thomas et al.
In: Energy Conversion and Managment: X, Vol. 20.2023, No. October, 100425, 16.07.2023.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Banasiak, D, Gallaun, M, Kienberger, T & Rinnhofer, C 2023, 'Integration of a rSOC-system to industrial processes', Energy Conversion and Managment: X, vol. 20.2023, no. October, 100425. https://doi.org/10.1016/j.ecmx.2023.100425

APA

Banasiak, D., Gallaun, M., Kienberger, T., & Rinnhofer, C. (2023). Integration of a rSOC-system to industrial processes. Energy Conversion and Managment: X, 20.2023(October), Article 100425. Advance online publication. https://doi.org/10.1016/j.ecmx.2023.100425

Vancouver

Banasiak D, Gallaun M, Kienberger T, Rinnhofer C. Integration of a rSOC-system to industrial processes. Energy Conversion and Managment: X. 2023 Jul 16;20.2023(October):100425. Epub 2023 Jul 16. doi: 10.1016/j.ecmx.2023.100425

Author

Banasiak, David ; Gallaun, Markus ; Kienberger, Thomas et al. / Integration of a rSOC-system to industrial processes. In: Energy Conversion and Managment: X. 2023 ; Vol. 20.2023, No. October.

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@article{372f5e6c6aa948b9ab01fdd5bed09498,
title = "Integration of a rSOC-system to industrial processes",
abstract = "The reversible operated high temperature solid oxide cell system (rSOC-System) seems to be a promising technology, enabling our future energy system to cope with the challenges of the transition to renewable electricity production and electrification. The rSOC-System provides energy storage capabilities and connects different energy carriers. This work provides insights into the coupling possibilities of such a system to industrial processes. Based on previously published investigations a flowsheet for the rSOC-System is chosen and described. To enable a quantitative analysis of the interaction with industries, a simulation model for this rSOC-System is created. This model is used for creating energy conversion and efficiency maps, which are then discuss with respect to the system behaviour. The increase of the system{\textquoteright}s conversion efficiency is determined for a selection of thermal coupling and operation scenarios. This work concludes with an analysis of the scenario dependent effect of heat coupling and the consequences for the integration of a rSOC-System to industrial processes. Previous article in issue",
keywords = "rSOC, SOEC, SOFC",
author = "David Banasiak and Markus Gallaun and Thomas Kienberger and Christoph Rinnhofer",
note = "Publisher Copyright: {\textcopyright} 2023 The Author(s)",
year = "2023",
month = jul,
day = "16",
doi = "10.1016/j.ecmx.2023.100425",
language = "English",
volume = "20.2023",
journal = "Energy Conversion and Managment: X",
issn = "2590-1745",
publisher = "Elsevier",
number = "October",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Integration of a rSOC-system to industrial processes

AU - Banasiak, David

AU - Gallaun, Markus

AU - Kienberger, Thomas

AU - Rinnhofer, Christoph

N1 - Publisher Copyright: © 2023 The Author(s)

PY - 2023/7/16

Y1 - 2023/7/16

N2 - The reversible operated high temperature solid oxide cell system (rSOC-System) seems to be a promising technology, enabling our future energy system to cope with the challenges of the transition to renewable electricity production and electrification. The rSOC-System provides energy storage capabilities and connects different energy carriers. This work provides insights into the coupling possibilities of such a system to industrial processes. Based on previously published investigations a flowsheet for the rSOC-System is chosen and described. To enable a quantitative analysis of the interaction with industries, a simulation model for this rSOC-System is created. This model is used for creating energy conversion and efficiency maps, which are then discuss with respect to the system behaviour. The increase of the system’s conversion efficiency is determined for a selection of thermal coupling and operation scenarios. This work concludes with an analysis of the scenario dependent effect of heat coupling and the consequences for the integration of a rSOC-System to industrial processes. Previous article in issue

AB - The reversible operated high temperature solid oxide cell system (rSOC-System) seems to be a promising technology, enabling our future energy system to cope with the challenges of the transition to renewable electricity production and electrification. The rSOC-System provides energy storage capabilities and connects different energy carriers. This work provides insights into the coupling possibilities of such a system to industrial processes. Based on previously published investigations a flowsheet for the rSOC-System is chosen and described. To enable a quantitative analysis of the interaction with industries, a simulation model for this rSOC-System is created. This model is used for creating energy conversion and efficiency maps, which are then discuss with respect to the system behaviour. The increase of the system’s conversion efficiency is determined for a selection of thermal coupling and operation scenarios. This work concludes with an analysis of the scenario dependent effect of heat coupling and the consequences for the integration of a rSOC-System to industrial processes. Previous article in issue

KW - rSOC

KW - SOEC

KW - SOFC

UR - http://www.scopus.com/inward/record.url?scp=85165446976&partnerID=8YFLogxK

U2 - 10.1016/j.ecmx.2023.100425

DO - 10.1016/j.ecmx.2023.100425

M3 - Article

VL - 20.2023

JO - Energy Conversion and Managment: X

JF - Energy Conversion and Managment: X

SN - 2590-1745

IS - October

M1 - 100425

ER -

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