Technological Pathways to Produce Compressed and Highly Pure Hydrogen from Solar Power

Ivanova, Mariya; eckert, kerstin; abdi, fatwa f.; Guillon, Olivier; neumann, nicole; Schäfer, Laura-Alena; sattler, christian; grosselindemann, cedric; roeb, martin; Menzler, Norbert H.; weber, andre; Seidler, Florian; dietrich, benjamin; duran, ines; Peters, Ralf; Müller, Martin; uhlenbruck, neele; grobbel, johannes; bagacki, rory; hecimovic, ante; van de krol, roel; röse, philipp; calnan, sonya; hofberger, christoph; Haas, Stefan; stoppel, leonid; rauner, david; mutschke, gerd; fantz, ursel; schlatmann, rutger; Harting, Jens; kulyk, nadiia; liang, feng; wetzel, thomas; brendelberger, stefan

TY  - CONF
AU  - Ivanova, Mariya
AU  - Schäfer, Laura-Alena
AU  - Menzler, Norbert H.
AU  - Guillon, Olivier
AU  - Peters, Ralf
AU  - Müller, Martin
AU  - Haas, Stefan
AU  - Seidler, Florian
AU  - mutschke, gerd
AU  - eckert, kerstin
AU  - röse, philipp
AU  - calnan, sonya
AU  - bagacki, rory
AU  - schlatmann, rutger
AU  - grosselindemann, cedric
AU  - weber, andre
AU  - van de krol, roel
AU  - liang, feng
AU  - abdi, fatwa f.
AU  - brendelberger, stefan
AU  - neumann, nicole
AU  - grobbel, johannes
AU  - roeb, martin
AU  - sattler, christian
AU  - duran, ines
AU  - dietrich, benjamin
AU  - hofberger, christoph
AU  - stoppel, leonid
AU  - uhlenbruck, neele
AU  - wetzel, thomas
AU  - rauner, david
AU  - hecimovic, ante
AU  - fantz, ursel
AU  - kulyk, nadiia
AU  - Harting, Jens
TI  - Technological Pathways to Produce Compressed and Highly Pure Hydrogen from Solar Power
M1  - FZJ-2023-03637
PY  - 2023
AB  - Hydrogen (H2) produced from renewables has a growing impact on the global energy dynamics towards sustainable and carbon-neutral economy. The share of green H2 is still too low to meet the net-zero target, while the demand for high-quality hydrogen continues to rise. These factors amplify the need for economically viable H2 generation technologies. This presentation gives an overview of the existing technologies for high-quality H2 production based on solar energy. Technologies such as water electrolysis (PV coupled to electrolyzers), photo-electrochemical and solar thermochemical water splitting, liquid metal reactors and plasma conversion utilize solar power directly or indirectly (as carbon-neutral electrons) and are reviewed from the perspective of their current development level, technical limitations and future potential for the generation of highly pure and compressed H2 [Angew. Chem. Int. Ed., e202218850, 2023]; Acknowledgement: The Helmholtz Association of German Research Centers (HGF) and the German Federal Ministry of Education and Research (BMBF) are acknowledged for supporting the Innovation Pool Project “Solar H2: Highly Pure and Compressed“ under the Research Program “Materials and Technologies for the Energy Transition” (MTET) - Topic 3: Chemical Energy Carriers. The review paper in Angew. Chem. Int. Ed., e202218850 (2023) is a joint contribution of the HGF Centers FZJ GmbH, KIT, DLR, HZDR, HZB and MPI-IPP.
T2  - 21st International Conference on Solid-State Protonic Conductors
CY  - 17 Sep 2023 - 22 Sep 2023, Fukuoka (Japan)
Y2  - 17 Sep 2023 - 22 Sep 2023
M2  - Fukuoka, Japan
LB  - PUB:(DE-HGF)24
UR  - https://juser.fz-juelich.de/record/1015282
ER  -

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