Engineering
Biomass
100%
Activated Sludge
100%
Cluster Size
100%
Homogeneous Model
50%
Repression
50%
Models
50%
High Density
50%
Microbial
50%
Research Group
50%
Mechanisms
50%
Concentration Gradient
50%
Outer Shell
50%
Density
50%
Reaction-Diffusion Model
50%
Three-Dimensional Models
50%
Yield
50%
Main Factor
50%
Biofilm Reactor
50%
INIS
oxygen
100%
bacteria
100%
sludges
100%
saturation
100%
nitrites
100%
size
100%
colonies
33%
biomass
22%
diffusion
22%
density
22%
shells
11%
affinity
11%
distribution
11%
reactors
11%
populations
11%
layers
11%
yields
11%
ammonia
11%
concentration
11%
Keyphrases
Half Saturation Coefficient
100%
Nitrifying Biofilms
100%
Cluster Size
100%
Nitrifying Sludge
100%
Microcolony
22%
Colony Size
22%
Conciliation
11%
Bacteria Colony
11%
Diffusion-reaction Model
11%
Biomass Distribution
11%
Floc Size
11%
Nitrifiers
11%
Biomass Density
11%
Granular Biofilm
11%
Three-dimensional Diffusion
11%
Biofilm Reactor
11%
Outcompete
11%
Study Stress
11%
Microbial Aggregates
11%
Stratified Group
11%
Homogeneous Model
11%
Ammonia Oxidation
11%
Inner Layer
11%
Chemical Engineering
Oxygen
100%
Activated Sludge
50%
Biofilm Reactor
25%
Ammonia
25%
Immunology and Microbiology
Biomass Distribution
11%
Bacterium Colony
11%