Zobrazeno 1 - 10
of 21
pro vyhledávání: '"J. Aicart"'
Autor:
Mikko Kotisaari, Bhaskar Reddy Sudireddy, P. Hanoux, Ming Chen, Jari Pennanen, Xiufu Sun, J. Aicart, V. Saarinen, Olli Himanen, S. Di Iorio, Olivier Thomann, Karine Couturier
Publikováno v:
Saarinen, V, Pennanen, J, Kotisaari, M, Thomann, O, Himanen, O, Iorio, S D, Hanoux, P, Aicart, J, Couturier, K, Sun, X, Chen, M & Sudireddy, B R 2021, ' Design, manufacturing, and operation of movable 2 × 10 kW size rSOC system ', Fuel Cells, vol. 21, no. 5, pp. 477-487 . https://doi.org/10.1002/fuce.202100021
Reversible solid oxide cell (rSOC) technology enables both electricity generation for local demands and electricity conversion into hydrogen with high power-to-gas (AC to H2) efficiency. This work describes modeling and implementation of movable “1
Autor:
J. Mougin, Yannik Antonetti, J. Aicart, F. Waeber, A. Nesci, C. Beetschen, Z. Wuillemin, B. Gervasoni, D. Reynaud
Publikováno v:
International Journal of Hydrogen Energy
International Journal of Hydrogen Energy, 2022, 47 (6), pp.3568-3579. ⟨10.1016/j.ijhydene.2021.11.056⟩
International Journal of Hydrogen Energy, 2022, 47 (6), pp.3568-3579. ⟨10.1016/j.ijhydene.2021.11.056⟩
International audience; To support the current trend of testing bigger reversible Solid Oxide Cell (rSOC) modules, CEA has built the 120 kWDC Multistack platform. It was used to test SOLIDpower recently developed-Large Stack Module (LSM) in electroly
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::9afd9bb8dd60f6aa93d881c6ca4f7d60
https://hal.science/hal-03562534/document
https://hal.science/hal-03562534/document
Akademický článek
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Publikováno v:
Fuel Cells. 17:90-99
Contrary to hardened glass ceramics, compressive non-destructive seals for solid oxide cells (SOCs) could enable stack repairs without utilizing destructive separation methods. In light of increasing interest for high temperature steam electrolysis a
Publikováno v:
Fuel Cells.
Operating maps of high temperature H2O electrolysis and H2O+CO2 co-electrolysis in solid oxide cells
Autor:
Laurent Dessemond, Gérard Delette, F. Usseglio-Viretta, J. Aicart, Jérôme Laurencin, M. Petitjean
Publikováno v:
International Journal of Hydrogen Energy. 41:17233-17246
This work aims at investigating through a modeling approach the difference in thermal and electrochemical responses between high temperature H 2 O electrolysis and H 2 O+CO 2 co-electrolysis in solid oxide cells. The study has been conducted by consi
Autor:
M. De Saint Jean, Julie Cren, Magali Reytier, Marie Petitjean, J. Aicart, André Chatroux, Julie Mougin, S. Di Iorio
Publikováno v:
International Journal of Hydrogen Energy. 40:11370-11377
High Temperature Steam Electrolysis (HTSE), based on solid oxide electrolysis cells (SOE) is a promising way to produce massively hydrogen with high efficiencies. This technology also allows producing syngas (H 2 + CO) by co-electrolyzing a mix of st
Publikováno v:
International Journal of Hydrogen Energy. 40:3134-3148
This work highlights an experimental and modeling approach devoted to a better understanding of H2O and CO2 co-electrolysis mechanisms at 800 °C. A standard Cathode Supported Cell (CSC) was used in this study. Through numerical adjustments on experi
Publikováno v:
Fuel Cells. 14:430-447
This work details an in-house 2D electrochemical and thermal model of solid oxide electrolysis cell (SOEC) dedicated to the simultaneous electrolysis of steam and carbon dioxide. The apparent exchange current densities for both H2O and CO2 electroche
Autor:
Laurent Dessemond, E. Lay-Grindler, Gérard Delette, J. Aicart, Jérôme Laurencin, M. Petitjean
Publikováno v:
International Journal of Hydrogen Energy. 38:6917-6929
An in-house micro model has been built to describe the electrochemical mechanisms governing both H2 and O2 electrodes operating in SOEC mode. A special attention has been paid to take into account the microstructure properties of the ionic, electroni