Power Transfer Station for Process Heat

Authors

DOI:

https://doi.org/10.52825/st-symposium.v1i.1342

Keywords:

Solar Thermal Process Heat, Balance of Plant, Parabolic Trough

Abstract

The challenges of integrating solar heat into industrial processes are discussed using the example of two plants. To this objective, the standardisation concept for a power transfer station developed in the Modulus project is explained using the example of the solar plant in Turnhout, Belgium. Test plans were defined for a standardised qualification during the production and installation of the power transfer station on site. The in-situ test plans were categorised according to characteristics that have a significant influence on the test procedure. In a next step, the developed test plans were transferred to the commissioning of the plant in Belgium. The findings and results of the commissioning are described in detail and possible problems that arose are analysed. Attention is then focussed on the largest solar thermal process heat plant in Seville, Spain and its design and technical features are discussed. To conclude, the results of the 2023 global market analysis for concentrating solar collectors are presented.

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References

[1] 8. Energieforschungsprogramm zur angewandten Energieforschung, https://www.bmwk.de/Redaktion/DE/Publikationen/Energie/8-energieforschungsprogramm-zur-angewandten-energieforschung.html (accessed on 9 July 2024)

[2] Dirk Krüger et al., “Standardized Balance of Plant Engineering”, 28th SolarPACES Conference, 2022, Conference Proceedings, https://doi.org/10.52825/solarpaces.v1i.690

[3] N. Konz et al., „Integration of Solar Thermal Process Heat”, ISEC 2024 –3rd International Sustainable Energy Conference, https://doi.org/10.52825/isec.v1i.1147

[4] ENGIE, “Heineken España y ENGIE España inauguran la planta termosolar de uso industrial más grande de Europa”, https://www.engie.es/heineken-espana-y-engie-espana-inauguran-la-planta-termosolar-de-uso-industrial-mas-grandede-europa (accessed on 9 April 2024)

[5] Solarlite CSP Technology GmbH, Heineken Brewery Seville, Spain, Solar heat supply https://www.solarlite.de/en/project_heinekensevilla.cfm (accessed on 16th of July)

[6] B. Epp, “Results from the market survey for 2023 on solar process heat”, Solarthermal-world.org, https://solarthermalworld.org/news/the-netherlands-and-spain-drive-ship-market-2023/ (accessed on 9 April 2024)

Cover Solarthermie-Symposium 2024

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Published

2024-11-26

How to Cite

Krüger, D., Leicht, J., Fahr, S., Krüger, J., Bonleitner, S., Burger, A., … Stengler, J. (2024). Power Transfer Station for Process Heat. Solarthermie-Symposium Proceedings, 1. https://doi.org/10.52825/st-symposium.v1i.1342

Conference Proceedings Volume

Vol. 1 (2024): Solarthermie-Symposium 2024

Section

Industrial Processes

License

Copyright (c) 2024 Dirk Krüger, Jakob Leicht, Sven Fahr, Joachim Krüger, Stefan Bonleitner, Andreas Burger, Navina Konz, Bärbel Epp, Jana Stengler

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Received 2024-05-21
Accepted 2024-08-07
Published 2024-11-26

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