Keyphrases
Proton Exchange Membrane Fuel Cell (PEMFC)
100%
Pressure Distribution
61%
Flow Field
50%
Gas Diffusion Layer
50%
Mass Transfer
38%
Modeling Results
38%
Mass Transfer Effects
33%
Modeling Approach
33%
Fuel Cell Stack
33%
Plate Structure
33%
Compression Effect
33%
Flow Distribution
27%
Reaction Products
27%
Compression Pressure
27%
Parallel Channels
22%
Field Systems
16%
Free-breathing
16%
Mass Transport
16%
Channel System
16%
Cell Scale
16%
Cell Performance
16%
Stack Design
16%
Transversal
16%
Velocity Distribution
16%
Electric Current
16%
Transport Problem
16%
Accurate Model
16%
Fuel Cell
16%
Contact Resistance
16%
Interlayer Properties
16%
Free Convection
16%
Channel Structure
16%
Finite Element Method
16%
Software-based
16%
Bolted Assembly
16%
Internal Pressure
16%
Cellular Lifespan
16%
Fuel Cell Cathode
11%
Cathode Flow Field
11%
Channel Design
11%
Uniform Flow Distribution
11%
Total Pressure Drop
11%
Three-dimensional Polymer
11%
Viscosity Variation
11%
Governing Equation
11%
Field Model
11%
Flow Profile
11%
Composition Change
11%
Density Variation
11%
Uniform Pressure
11%
INIS
modeling
100%
distribution
79%
fuel cells
77%
polymers
72%
membranes
72%
electrolytes
72%
compression
48%
gases
44%
stacks
44%
plates
38%
mass transfer
37%
polymer electrolyte fuel cells
33%
diffusion layer
27%
variations
22%
design
22%
cathodes
22%
equations
16%
viscosity
16%
gas flow
16%
density
16%
pressure drop
16%
approximations
16%
performance
12%
Engineering
Proton-Exchange Membrane Fuel Cells
100%
Flow Distribution
72%
Pressure Distribution
61%
Gas Diffusion Layer
50%
Fuel Cell Stack
33%
Plate End
33%
Plate Structure
33%
Compression Pressure
27%
Reactant
22%
Local Scale
16%
Channel Structure
16%
Breathing
16%
Natural Convection
16%
Stack Design
16%
Internal Pressure
16%
Cell Performance
16%
Finite Element Analysis
16%
Fuel Cell
16%
Mass Transport
16%
Uniform Flow
11%
Parallel Channel
11%