A review of image-based simulation applications in high-value manufacturing
LM Evans, E Sözümert, BE Keenan, CE Wood… - … Methods in Engineering, 2023 - Springer
Abstract Image-Based Simulation (IBSim) is the process by which a digital representation of
a real geometry is generated from image data for the purpose of performing a simulation …
a real geometry is generated from image data for the purpose of performing a simulation …
Strategies for building robust traffic networks in advanced energy storage devices: a focus on composite electrodes
The charge transport system in an energy storage device (ESD) fundamentally controls the
electrochemical performance and device safety. As the skeleton of the charge transport …
electrochemical performance and device safety. As the skeleton of the charge transport …
A novel multi-physics coupled heterogeneous single-cell numerical model for solid oxide fuel cell based on 3D microstructure reconstructions
As one of the most prevailing tools, numerical modeling plays a unique role in
understanding the multi-physics interactions in Solid Oxide Fuel Cells (SOFCs) during …
understanding the multi-physics interactions in Solid Oxide Fuel Cells (SOFCs) during …
Integrated 3D modeling unravels the measures to mitigate nickel migration in solid oxide fuel/electrolysis cells
Numerical modeling plays an important role in understanding the multi-physics coupling in
solid oxide fuel/electrolysis cells (SOFCs/SOECs) operated at elevated temperatures. During …
solid oxide fuel/electrolysis cells (SOFCs/SOECs) operated at elevated temperatures. During …
[HTML][HTML] Advantages of ionic conductors over electronic conductors as infiltrates in solid oxide fuel cell cathodes
To investigate the difference between ionic and electronic conductors as infiltrates in solid
oxide fuel cells (SOFCs), high-throughput and high-performance finite element simulations …
oxide fuel cells (SOFCs), high-throughput and high-performance finite element simulations …
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 …
Enhanced triple-phase boundary density in infiltrated electrodes for solid oxide fuel cells demonstrated by high-resolution tomography
This paper, for the first time, demonstrates the three-dimensional imaging of nano-particle
infiltrated Ni–GDC (gadolinia-doped ceria) electrodes using focused ion beam tomography …
infiltrated Ni–GDC (gadolinia-doped ceria) electrodes using focused ion beam tomography …
Electrochemical modeling of the current-voltage characteristics of an SOFC in fuel cell and electrolyzer operation modes
A zero-dimensional and isothermal stationary model demonstrably predicting the current-
voltage (C/V) characteristic of an anode supported SOFC single cell is for the first time …
voltage (C/V) characteristic of an anode supported SOFC single cell is for the first time …
Insight into mechanism of boosted oxygen reduction reaction in mixed-conducting composite cathode of solid oxide fuel cell via a novel open-source pore-scale model
Composite engineering is one of the most practical strategies for mitigating thermo-
mechanical instability in state-of-the-art cobalt-based mixed ionic-electronic conducting …
mechanical instability in state-of-the-art cobalt-based mixed ionic-electronic conducting …
Numerical thermomechanical modelling of solid oxide fuel cells
M Peksen - Progress in Energy and Combustion Science, 2015 - Elsevier
Over the last decade, many computational models have been presented to describe the
complex thermomechanical behaviour of solid oxide fuel cells. The present study elucidates …
complex thermomechanical behaviour of solid oxide fuel cells. The present study elucidates …