High-temperature electrolysis : from fundamentals to applications / edited by Werner Sitte, Rotraut Merkle.

Format:

Book

Contributor:

Sitte, Werner, editor.

Merkle, Rotraut, editor.

Institute of Physics (Great Britain), publisher.

Series:

IOP (Series). Release 22.

IOP ebooks. 2022 collection.

[IOP release $release]

IOP ebooks. [2022 collection]

Language:

English

Subjects (All):

High temperature electrolysis.

Direct energy conversion.

Energy storage.

Renewable energy sources.

Physical Description:

1 online resource (various pagings) : illustrations (some color).

Place of Publication:

Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2023]

System Details:

Mode of access: World Wide Web.

System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.

Biography/History:

Professor Dr. Werner Sitte is full professor of Physical Chemistry and a full professor at Montanuniversitaet Leoben, Austria. His research interests concern transport and defect chemistry in ionic solids as well as applications towards solid oxide and protonic fuel and electrolyser cells. He is an associate editor of the journal Solid State Ionics and is on the scientific board of International Conferences on Solid State Ionics. Dr. Rotraut Merkle is a scientist at the Max Planck Institute for Solid State Research, Germany. Her research is dedicated to point defect formation and transport in ionic solids, reaction kinetics at oxide surfaces, transport at grain boundaries, and extends to solid oxide and protonic ceramic fuel and electrolysis cells. She is involved in EMRS, SSI and SSPC conference organization, and is an editor for the Solid State Ionics journal.

Summary:

There is a strong need to store electrical energy from fluctuating renewable energy sources such as solar or wind and to decarbonize transport and industry. High-temperature electrolysis is expected to contribute significantly to reach these goals. This reference text provides a detailed guide, including the fundamental and materials aspects of solid oxide and protonic ceramic electrolysis cells at stack and system levels, as well as recent developments. Applications discussed include the production of green hydrogen as well as the combination of high-temperature electrolysis with other processes for the synthesis of ammonia, methane or e-fuels. Highly relevant to the field of renewable energy supply and conversion, the text provides a comprehensive and accessible reference for researchers, engineers, and graduate students from various disciplines.

Contents:

1. High-temperature electrolysis

general overview / Mogens Bjerg Mogensen, Francesco Mondi and Gurli Mogensen

2. Electrolyte materials for solid oxide electrolysis cells / Stephen J. Skinner, Chen-Yu Tsai, Per Hjalmarrson, Robert Leah and Subhasish Mukerjee

3. Anode materials for solid oxide electrolysis cells / Christian Berger and Andreas Egger

4. Cathode materials for solid oxide electrolysis cells / Peter Holtappels, John T.S. Irvine and Shu Wang

5. Interconnects and coatings / Belma Talic, Elena Stefan and Yngve Larring

6. Electrode kinetics / Alexander K. Opitz and Andreas Nenning

7. Cell architectures / Anke Hagen and Ming Chen

8. Metal-supported cells / Martin Bram and Norbert H. Menzler

9. Advanced data analysis / Dino Klotz, Sebastian Dierickx, Jochen Joos and André Weber

10. Long-term stack tests / Qingping Fang and Norbert H. Menzler

11. Proton and mixed proton/hole-conducting materials for protonic ceramic electrolysis cells / Rotraut Merkle

12. Thermodynamics, transport, and electrochemistry in protonic ceramic electrolysis cells / Huayang Zhu, Sandrine Ricote and Robert J. Kee

13. Tubular protonic ceramic electrolysis cells and direct hydrogen compression / Einar Vøllestad

14. Planar protonic ceramic electrolysis cells for H2 production and CO2 conversion / Fan Liu and Chuancheng Duan

15. Co-solid oxide electrolysis and methanation / Andreas Krammer and Markus Lehner

16. CO2 electrolysis / Christopher Graves, Theis L Skafte and Søren Højgaard Jensen

17. Power-to-ammonia for fertilizers, chemicals, and as an energy vector / John Bøgild Hansen

18. SOEC-based production of e-fuels via the Fischer-Tropsch route / Dorela Dhamo, Dominik Hess, Michael Rubin and Roland Dittmeyer

19. Reversible solid oxide cell systems as key elements of achieving flexibility in future energy systems / David Paczona, Christoph Sejkora and Thomas Kienberger

20. Economic aspects of power-to-gas / Hans Böhm and Robert Tichler.

Notes:

"Version: 20230101"--Title page verso.

Includes bibliographical references.

Title from PDF title page (viewed on February 1, 2023).

Other Format:

Print version:

ISBN:

9780750339513

9780750339506

OCLC:

1364316661

Access Restriction:

Restricted for use by site license.