Engineering
Modeling Study
100%
Biofilm Development
100%
Permeate Flux
100%
Biofouling
100%
Membrane Performance
50%
Two Dimensional
50%
Mathematical Model
50%
Feed Pressure
50%
Performance Loss
50%
Detrimental Effect
50%
Reverse Osmosis Membrane
50%
Concentration Polarization
50%
Mass Transfer
50%
Assuming
50%
Salt Concentration
50%
Diffusion Coefficient
50%
Keyphrases
Membrane Device
100%
Biofilm
100%
Biofouling
100%
Biofilm Growth
33%
Permeate Flux
33%
High Salinity
16%
Membrane Performance
16%
Numerical Results
16%
Feeding Pressure
16%
Performance Loss
16%
Detrimental Effects
16%
Reverse Osmosis Membrane
16%
Salt Concentration
16%
Transport Development
16%
Flux Enhancement
16%
Mass Transport
16%
Initial Flux
16%
Concentration Polarization
16%
Fluid Dynamics
16%
Two-dimensional Mathematical Model
16%
High Salt
16%
Membrane Channels
16%
Local Flux
16%
Parametric Variation
16%
Effective Diffusion Coefficient
16%
Filled Membrane
16%
Free Area
16%
Feeding Effect
16%
Biofilm Permeability
16%
Chemical Engineering
Reverse Osmosis
100%
Diffusion
100%
Mass Transfer
100%
Biofouling
100%