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Conversion of Polymeric Substrates by Aerobic Granular Sludge
S. Toja Ortega
Sanitary Engineering
Research output
:
Thesis
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Dissertation (TU Delft)
112
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Dive into the research topics of 'Conversion of Polymeric Substrates by Aerobic Granular Sludge'. Together they form a unique fingerprint.
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INIS
conversion
100%
substrates
100%
sludges
100%
waste water
44%
microorganisms
33%
feeding
22%
nutrients
22%
applications
22%
mass transfer
22%
comparative evaluations
22%
water
22%
pollutants
11%
energy
11%
glycogen
11%
biomass
11%
reactors
11%
starvation
11%
polymers
11%
hydrolysis
11%
removal
11%
space
11%
organic matter
11%
size
11%
Earth and Planetary Sciences
Sludge
100%
Substrate
100%
Micro-Organism
33%
Utilization
33%
Cycle
33%
Wastewater
33%
Mass Transfer
22%
Selection
22%
Experience
11%
Constraint
11%
Water
11%
Investigation
11%
Technology
11%
Biological Wastewater Treatment
11%
Rate
11%
Starvation
11%
Biofilm
11%
Organic Matter
11%
Bed
11%
Nutrient Removal
11%
Biomass
11%
Strategy
11%
Comparison
11%
Micrometer
11%
Size
11%
Water Body
11%
Stable
11%
Hydrolysis
11%
Sequencing Batch Reactor
11%
Need
11%
Glycogen
11%
Engineering
Polymeric Substrate
100%
Microbial
50%
Cycles
50%
Substrates
50%
Application
33%
Biomass
16%
Selection Strategy
16%
Degradation Rate
16%
Water
16%
Mass Transfer
16%
Natural Water
16%
Mass Transfer Limitation
16%
Detrimental Effect
16%
Full Scale
16%
Polymers
16%
Sequencing Batch Reactor
16%
Biological Wastewater Treatment
16%
Energy Engineering
16%
Chemical Engineering
Mass Transfer
100%
Water
100%
Sequencing Batch Reactor
50%
Polymer
50%
Biological Wastewater Treatment
50%
Keyphrases
Sludge Application
16%
Low Degradation
16%
Immobilized Microorganism
16%