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Bioaugmentation to improve nitrification in activated sludge treatment
Shao Yuan Leu
, Michael K. Stenstrom
Research output
:
Journal article publication
›
Journal article
›
Academic research
›
peer-review
27
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Keyphrases
Bioaugmentation
100%
Nitrification
100%
Activated Sludge Treatment
100%
Enricher Reactor
50%
Low Temperature
25%
Reactor
25%
Return Activated Sludge
25%
High Concentration
12%
Potential Gains
12%
Activated Sludge
12%
Treatment Plant
12%
Kinetic Model
12%
Wastewater Treatment Plant
12%
Controllable Parameters
12%
Denitrification
12%
Reaeration
12%
Bioaugmentation Process
12%
Municipal Wastewater Treatment
12%
Nitrifier
12%
Denitrification Process
12%
Long SRT
12%
Tankage
12%
Nutrient Removal
12%
Aeration Tank
12%
SRT Sludge Retention Time
12%
Tank Volume
12%
Enrichment Culture
12%
Reactor Volume
12%
Land Requirements
12%
Inhibitory Compounds
12%
Chemical Engineering
Nitrification
100%
Activated Sludge Treatment
100%
Activated Sludge
75%
Wastewater Treatment
25%
Wastewater Treatment Plant
25%
Chemical Kinetics Characteristics
25%
Sludge Retention Time
25%
Solids Retention Time
25%
Nutrient Removal
25%
Municipal Wastewater
25%
Engineering
Bioaugmentation
100%
Sludge Treatment
100%
Activated Sludge
100%
Low-Temperature
22%
Potential Benefit
11%
Kinetic Model
11%
Simulation Result
11%
Municipal Wastewater Treatment
11%
Sludge Retention Time
11%
Reaeration
11%
Reactor Volume
11%
Illustrates
11%
Wastewater Treatment Plant
11%
Solids Retention Time
11%