HyPLANT100: Industrialization from Assembly to the Construction Site for Gigawatt Electrolysis

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Detalles Bibliográficos
Publicado en:	Hydrogen vol. 5, no. 2 (2024), p. 185
Autor principal:	Büsch, Lukas
Otros Autores:	Jakschik, Malte, Syniawa, Daniel, Masuhr, Christian, Christ, Lukas, Schachtsiek, Jan, Haalck, Kay, Nerlich, Leon, Frömsdorf, Elisabeth, Schirmack, Nadine, Ebert, Benedikt, Kirty, Chaman, Adler, Patrick, Schüppstuhl, Thorsten, Kuhlenkötter, Bernd
Publicado:	MDPI AG
Materias:	Europe Tube fittings Assembly Hoses Modularization Construction sites Green hydrogen Gases Investigations Standardization Fossil fuels Automation Electrolysis Digital twins Supercomputers Capital expenditures Tubes Energy Manufacturing Cables Climate change Digital technology
Acceso en línea:	Citation/Abstract Full Text + Graphics Full Text - PDF
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022			\|a 2673-4141
024	7		\|a 10.3390/hydrogen5020012 \|2 doi
035			\|a 3072329340
045	2		\|b d20240101 \|b d20241231
100	1		\|a Büsch, Lukas \|u Institute of Aircraft Production Technology, Hamburg University of Technology, Denickestraße 17, 21073 Hamburg, Germany
245	1		\|a HyPLANT100: Industrialization from Assembly to the Construction Site for Gigawatt Electrolysis
260			\|b MDPI AG \|c 2024
513			\|a Journal Article
520	3		\|a The global push for sustainable energy has heightened the demand for green hydrogen, which is crucial for decarbonizing heavy industry. However, current electrolysis plant capacities are insufficient. This research addresses the challenge through optimizing large-scale electrolysis construction via standardization, modularization, process optimization, and automation. This paper introduces H2Giga, a project for mass-producing electrolyzers, and HyPLANT100, investigating large-scale electrolysis plant structure and construction processes. Modularizing electrolyzers enhances production efficiency and scalability. The integration of AutomationML facilitates seamless information exchange. A digital twin concept enables simulations, optimizations, and error identification before assembly. While construction site automation provides advantages, tasks like connection technologies and handling cables, tubes, and hoses require pre-assembly. This study identifies key tasks suitable for automation and estimating required components. The Enapter Multicore electrolyzer serves as a case study, showcasing robotic technology for tube fittings. In conclusion, this research underscores the significance of standardization, modularization, and automation in boosting the electrolysis production capacity for green hydrogen, contributing to ongoing efforts in decarbonizing the industrial sector and advancing the global energy transition.
651		4	\|a Europe
653			\|a Tube fittings
653			\|a Assembly
653			\|a Hoses
653			\|a Modularization
653			\|a Construction sites
653			\|a Green hydrogen
653			\|a Gases
653			\|a Investigations
653			\|a Standardization
653			\|a Fossil fuels
653			\|a Automation
653			\|a Electrolysis
653			\|a Digital twins
653			\|a Supercomputers
653			\|a Capital expenditures
653			\|a Tubes
653			\|a Energy
653			\|a Manufacturing
653			\|a Cables
653			\|a Climate change
653			\|a Digital technology
700	1		\|a Jakschik, Malte \|u Chair of Production Systems (LPS), Ruhr-University Bochum, Industriestraße 38c, 44894 Bochum, Germany
700	1		\|a Syniawa, Daniel \|u Chair of Production Systems (LPS), Ruhr-University Bochum, Industriestraße 38c, 44894 Bochum, Germany
700	1		\|a Masuhr, Christian \|u Institute of Aircraft Production Technology, Hamburg University of Technology, Denickestraße 17, 21073 Hamburg, Germany
700	1		\|a Christ, Lukas \|u Chair of Production Systems (LPS), Ruhr-University Bochum, Industriestraße 38c, 44894 Bochum, Germany
700	1		\|a Schachtsiek, Jan \|u Chair of Production Systems (LPS), Ruhr-University Bochum, Industriestraße 38c, 44894 Bochum, Germany
700	1		\|a Haalck, Kay \|u Entwicklungsagentur Region Heide AöR, Hamburger Hof 3, 25746 Heide, Germany
700	1		\|a Nerlich, Leon \|u FEST GmbH, Harzburger Straße 14, 38642 Goslar, Germany
700	1		\|a Frömsdorf, Elisabeth \|u FEST GmbH, Harzburger Straße 14, 38642 Goslar, Germany
700	1		\|a Schirmack, Nadine \|u Hypion GmbH, Hamburger Hof 3, 25746 Heide, Germany
700	1		\|a Ebert, Benedikt \|u IBG Automation GmbH, Osemundstraße 14-22, 58809 Neuenrade, Germany
700	1		\|a Kirty, Chaman \|u H2 Core Systems GmbH, Rüsdorfer Straße 8, 25746 Heide, Germany
700	1		\|a Adler, Patrick \|u Chair of Production Systems (LPS), Ruhr-University Bochum, Industriestraße 38c, 44894 Bochum, Germany
700	1		\|a Schüppstuhl, Thorsten \|u Institute of Aircraft Production Technology, Hamburg University of Technology, Denickestraße 17, 21073 Hamburg, Germany
700	1		\|a Kuhlenkötter, Bernd \|u Chair of Production Systems (LPS), Ruhr-University Bochum, Industriestraße 38c, 44894 Bochum, Germany
773	0		\|t Hydrogen \|g vol. 5, no. 2 (2024), p. 185
786	0		\|d ProQuest \|t Materials Science Database
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856	4	0	\|3 Full Text + Graphics \|u https://www.proquest.com/docview/3072329340/fulltextwithgraphics/embedded/75I98GEZK8WCJMPQ?source=fedsrch
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