Engineering
Aromatics
100%
Biodegradation
100%
Hydrophobic
100%
Bioremediation
27%
Surfactant
22%
Dissolution Rate
18%
Mass Transfer Model
13%
Diffusion Coefficient
13%
Biodegradation Process
9%
Model System
9%
Soil System
9%
Model Parameter
9%
Mechanistic Model
9%
Stainless Steel
9%
Porosity
9%
Mass Transport
9%
Hydrodynamics
4%
Applicability
4%
Main Conclusion
4%
Aqueous Phase
4%
Powerful Tool
4%
Driving Force
4%
Active Surface
4%
Diffusion Limitation
4%
Experimental Result
4%
External Mass Transfer
4%
Flow Condition
4%
Growth Condition
4%
Measurable Quantity
4%
Compartment Model
4%
Predictive Capability
4%
Mass Transfer Rate
4%
Bulk Liquid
4%
Liquid Phase
4%
Biofilm Formation
4%
Chemostat
4%
Mathematical Model
4%
Material Science
Biodegradation
100%
Surface Active Agent
50%
Biofilms
30%
Micelle
30%
Diffusivity
30%
Desorption
20%
Stainless Steel
20%
Hydrodynamics
10%
Liquid Interface
10%
Surface (Surface Science)
10%
Chemical Engineering
Biodegradation
100%
Polycyclic Aromatic Hydrocarbon
100%
Naphthalene
45%
Surfactant
22%
Desorption
9%
Chemostat
4%
External Diffusion
4%