Towards electrochemical-performance evaluation of fiber-based batteries: Fiber-arrangement-based method and FE² multiscale framework

Engineering

• Evaluation 100%
• Performance 100%
• Battery (Electrochemical Energy Engineering) 100%
• Fiber 100%
• Multiscale 100%
• Microscale 100%
• Macroscale 83%
• Models 66%
• Conductive Fiber 50%
• Active Fiber 50%
• Electronic Conductivity 33%
• Active Material 33%
• Percolation Threshold 33%
• Equation Model 33%
• Separator 16%
• Averaging Method 16%
• Microstructure 16%
• Conductive Material 16%
• Limitations 16%
• Transients 16%
• Estimation 16%
• Material Utilization 16%
• Battery Model 16%
• Boundary Condition 16%
• Anisotropic 16%
• Simulation Result 16%
• Constitutive Relation 16%
• Length Scale 16%
• Governing Equation 16%
• Existing Model 16%
• Fiber Orientation 16%
• Source Term 16%

INIS

• electrochemistry 100%
• evaluation 100%
• performance 100%
• fibers 100%
• electrodes 45%
• equations 36%
• electrolytes 27%
• capacity 27%
• transport 27%
• simulation 18%
• connections 18%
• distribution 9%
• source terms 9%
• matrices 9%
• particles 9%
• microstructure 9%
• diffusion 9%
• tensors 9%
• anisotropy 9%
• information 9%
• boundary conditions 9%
• nonlinear problems 9%
• monte carlo method 9%
• volume 9%
• physics 9%
• tools 9%
• concentration 9%
• orientation 9%
• length 9%

Keyphrases

• Active Fiber 100%
• Fiber Arrangement 100%
• Pseudo-2D Model 66%
• Two-equation Model 33%
• Transient Diffusion 33%
• Effective Material Properties 33%
• Effective Electronic Conductivity 33%
• Tensor Formats 33%
• Separate Treatment 33%
• One-equation Model 33%
• Random Fibers 33%
• Effective Transport Properties 33%