Towards the digitalisation of porous energy materials: evolution of digital approaches for microstructural design
Porous energy materials are essential components of many energy devices and systems,
the development of which have been long plagued by two main challenges. The first is the …
the development of which have been long plagued by two main challenges. The first is the …
Addressing planar solid oxide cell degradation mechanisms: A critical review of selected components
SJ McPhail, S Frangini, J Laurencin… - Electrochemical …, 2022 - Wiley Online Library
In this review paper, a critical assessment of the main degradation processes in three key
components of solid oxide fuel cells and electrolysers (negative and positive electrodes and …
components of solid oxide fuel cells and electrolysers (negative and positive electrodes and …
Pores for thought: generative adversarial networks for stochastic reconstruction of 3D multi-phase electrode microstructures with periodic boundaries
The generation of multiphase porous electrode microstructures is a critical step in the
optimisation of electrochemical energy storage devices. This work implements a deep …
optimisation of electrochemical energy storage devices. This work implements a deep …
Impact of Nickel agglomeration on Solid Oxide Cell operated in fuel cell and electrolysis modes
Long-term experiments have been carried out to investigate the impact of Nickel (Ni)
coarsening on the performance of Solid Oxide Cell. Durability tests have been performed …
coarsening on the performance of Solid Oxide Cell. Durability tests have been performed …
Degradation of Ni-YSZ electrodes in solid oxide cells: impact of polarization and initial microstructure on the Ni evolution
Two types of solid oxide cells with different Ni-YSZ cermet microstructures have been aged
in electrolysis and fuel cell modes for operating times ranging from 1000 to 15000 hours …
in electrolysis and fuel cell modes for operating times ranging from 1000 to 15000 hours …
Large-scale statistical learning for mass transport prediction in porous materials using 90,000 artificially generated microstructures
Effective properties of functional materials crucially depend on their 3D microstructure. In this
paper, we investigate quantitative relationships between descriptors of two-phase …
paper, we investigate quantitative relationships between descriptors of two-phase …
Performance evaluation of a 4-stack solid oxide module in electrolysis mode
J Aicart, Z Wuillemin, B Gervasoni, D Reynaud… - International Journal of …, 2022 - Elsevier
To support the current trend of testing bigger reversible Solid Oxide Cell (rSOC) modules,
CEA has built the 120 kW DC Multistack platform. It was used to test SOLIDpower recently …
CEA has built the 120 kW DC Multistack platform. It was used to test SOLIDpower recently …
A Multiscale model validated on local current measurements for understanding the solid oxide cells performances
A physical-based model has been developed and validated to unravel the complex
relationships between the global solid oxide cells response and the reaction mechanisms …
relationships between the global solid oxide cells response and the reaction mechanisms …
An elementary kinetic model for the LSCF and LSCF-CGO electrodes of solid oxide cells: impact of operating conditions and degradation on the electrode response
An elementary kinetic model was developed to predict the electrochemical response of
porous LSCF and LSCF-CGO electrodes. The model was validated thanks to experiments …
porous LSCF and LSCF-CGO electrodes. The model was validated thanks to experiments …
[图书][B] Tortuosity and microstructure effects in porous media: classical theories, empirical data and modern methods
This open access book presents a thorough look at tortuosity and microstructure effects in
porous materials. The book delivers a comprehensive review of the subject, summarizing all …
porous materials. The book delivers a comprehensive review of the subject, summarizing all …