Reactor Geometry Optimization
Reactor geometry optimizationComputational fluid dynamics (CFD)Multi-objective optimizationFlow pattern analysisScale-up engineering
Reactor Geometry Optimizer
de Smit's multi-objective optimization framework
Reactor Geometry
Performance Metrics
Power Density0.0 mW/m²
Coulombic Efficiency0.0%
Mass Transfer0.0
Pressure Drop0.0 Pa
Flow Uniformity0.0%
Overall Score
0.0
de Smit Optimization Index
Flow Pattern Analysis
Velocity Field
Low VelocityHigh Velocity
Shear Stress Distribution
Low ShearHigh Shear
Channel Config
single
Mixing Index
0.000
de Smit's Flow Optimization Notes:
- • Serpentine channels provide best mixing but highest pressure drop
- • Parallel configurations balance efficiency and pressure
- • Optimal electrode spacing: 2-3 cm for most geometries
- • Flow velocity ~1 mm/s minimizes shear damage