Keyphrases
Mathematical Model
100%
Proton Exchange Membrane Fuel Cell (PEMFC)
100%
Two-phase Flow
100%
Fuel Cell
44%
Current Density
33%
Serpentine
33%
Liquid Phase
22%
Mass Fraction
22%
Catalyst Layer
22%
Electric Potential
22%
Gas Channel
22%
Poisson Equation
22%
Flowing Fluid
22%
Parallel Geometry
22%
Numerical Results
11%
Water Vapor
11%
Hydrogen Fuel
11%
Numerical Data
11%
Gas Phase
11%
Proton
11%
Porosity
11%
Governing Equation
11%
Gas-liquid
11%
SIMPLE Algorithm
11%
Finite Difference
11%
Numerical Computation
11%
One Solution
11%
Full Simulation
11%
Liquid Water
11%
Special Care
11%
Sidewall
11%
Diffuser
11%
Performance Results
11%
Nonsingular Matrix
11%
Saturation Value
11%
Local Temperature
11%
Solution Domain
11%
Flow Simulation
11%
Zero Value
11%
2-phase
11%
Locally Homogeneous
11%
Void Fraction
11%
Electric Current Density
11%
Transfer Current
11%
Local Velocity
11%
Fuel Cell Design
11%
Mixture Density
11%
Difference Coefficient
11%
Cathode Catalyst Layer
11%
Produced Water
11%
Cell Potential
11%
Membrane Interface
11%
Homogeneous Flow Model
11%
Mass Continuity Equation
11%
Phase Simulation
11%
Gradient Boundary
11%
Slip Velocity
11%
Two-phase Simulation
11%
Phase Current
11%
End Boundary Conditions
11%
Water Mass Fraction
11%
Outlet Section
11%
Engineering
Proton-Exchange Membrane Fuel Cells
100%
Two-Phase Flow
100%
Mathematical Model
100%
Boundary Condition
50%
Fuel Cell
50%
Catalyst Layer
37%
Gas Channel
25%
Flowing Fluid
25%
Specie Mass Fraction
25%
Phase Flow
25%
Phase Simulation
25%
Liquid Phase
25%
Electric Potential
25%
Porosity
25%
Flow Simulation
12%
Gas-Phase
12%
Good Agreement
12%
Numerical Computation
12%
Diffusers
12%
Side Wall
12%
Mass Fraction
12%
Solution Domain
12%
Local Velocity
12%
Slip Velocity
12%
Saturation Value
12%
Produced Water
12%
Homogeneous Flow Model
12%
Membrane Interface
12%
Hydrogen Fuel
12%
Proton-Exchange Membrane Fuel Cells Design
12%
Numerical Data
12%
Dependent Variable
12%
Continuity Equation
12%
Nonsingular Matrix
12%
Material Science
Proton-Exchange Membrane Fuel Cells
100%
Two Phase Flow
100%
Density
55%
Cathode
33%
Numerical Computational Method
11%
Void Fraction
11%
Anode
11%
Liquid Water
11%
Water Vapor
11%
Oxidant
11%
Hydrogen Fuels
11%
Finite Difference Method
11%
Chemical Engineering
Proton Exchange Membrane Fuel
100%
Cathode Catalyst Layer
11%