Performance assessment of a 25 kW solid oxide cell module for hydrogen production and power generation

Hydrogen produced via water electrolysis from renewable electricity is considered a key energy carrier to defossilize hard-to-electrify sectors. Solid oxide cells (SOC) based reactors can supply hydrogen not only in electrolysis but also in fuel cell mode, when operating with (synthetic) natural gas...

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Bibliographic Details
Published in:International journal of hydrogen energy 2024-03, Vol.59, p.570-581
Main Authors: Amaya Dueñas, Diana M., Ullmer, Dirk, Riedel, Marc, Ventura, Santiago Salas, Metten, Matthias, Tomberg, Marius, Heddrich, Marc P., Ansar, S. Asif
Format: Article
Language:English
Subjects:
Area Specific Resistance (ASR)
High Temperature Electrolysis (HTE)
Hydrogen polygeneration
Reversible Solid Oxide Cell (rSOC)
Solid Oxide Electrolysis (SOEL)
Solid Oxide Fuel Cell (SOFC)
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Summary:Hydrogen produced via water electrolysis from renewable electricity is considered a key energy carrier to defossilize hard-to-electrify sectors. Solid oxide cells (SOC) based reactors can supply hydrogen not only in electrolysis but also in fuel cell mode, when operating with (synthetic) natural gas or biogas at low conversion (polygeneration mode). However, the scale-up of SOC reactors to the multi-MW scale is still a research topic. Strategies for transient operation depending on electricity intermittency still need to be developed. In this work, a unique testing environment for SOC reactors allows reversible operation, demonstrating the successful switching between electrolysis (−75 kW) and polygeneration (25 kW) modes. Transient and steady state experiments show promising performance, with a net hydrogen production of 53 kg day−1 in SOEL operation with ca. −75 kW power input. The experimental results validate the scaling approach since the reactor shows homogenous temperature profiles. •Operation of a −75 kW/25 kW rSOC module as a steppingstone for MW systems.•Successfully switching within 30 min between SOEL and SOFC operation.•H2 production up to 53 kg day−1 in SOEL operation (−75 kW) was achieved.•Exothermic polygeneration mode showed good temperature control of the stacks.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2024.01.346