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Phosphate Recovery From Sewage Sludge Containing Iron Phosphate
Philipp Wilfert
BT/Environmental Biotechnology
Research output
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Thesis
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Dissertation (TU Delft)
2315
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Dive into the research topics of 'Phosphate Recovery From Sewage Sludge Containing Iron Phosphate'. Together they form a unique fingerprint.
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INIS
iron phosphates
100%
sewage sludge
100%
recovery
100%
phosphates
100%
sludges
80%
iron
77%
removal
33%
sewage treatment
25%
reduction
13%
kinetics
8%
particles
8%
bacteria
8%
solutions
8%
magnetic separators
8%
production
5%
fertilizers
5%
units
5%
communities
5%
scanning electron microscopy
5%
anaerobic digestion
5%
comparative evaluations
5%
ph value
5%
xrd
5%
solids
5%
precipitation
5%
sulfides
5%
paramagnetism
5%
pyrite
2%
feeding
2%
magnetism
2%
incineration
2%
separation equipment
2%
zones
2%
nutrients
2%
oxygen
2%
levels
2%
mining industry
2%
energy
2%
bears
2%
quartz
2%
efficiency
2%
oxidation
2%
diffusion
2%
weight
2%
spectroscopy
2%
carbonates
2%
reaction kinetics
2%
metals
2%
iron carbonates
2%
heating
2%
resources
2%
europe
2%
plates
2%
plant growth
2%
food
2%
anaerobic conditions
2%
configuration
2%
concentration
2%
transformations
2%
organic compounds
2%
hydrocyclones
2%
waste water
2%
volatility
2%
Earth and Planetary Sciences
Sewage Sludge
100%
Phosphate
100%
Iron
100%
Vivianite
75%
Sludge
72%
Plant
30%
Content
27%
Sewage Treatment
27%
Phosphate Removal
21%
Rate
21%
Technology
15%
Separator
9%
Particles
9%
Fraction
9%
Experiment
9%
Activated Sludge
6%
Solid
6%
Microbial Community
6%
Investigation
6%
Anaerobic Digestion
6%
Fertilizer
6%
Amount
6%
pH
6%
X Ray Diffraction
6%
Hydrocyclone
3%
Interest
3%
Spectroscopy
3%
Sludge Incineration
3%
Region
3%
Constraint
3%
Actuator
3%
Scanning Electron Microscopy
3%
Sludge Treatment
3%
Calculation
3%
Observation
3%
Spectrometer
3%
Class
3%
Precipitate
3%
Magnetism
3%
Metal
3%
Europe
3%
Mining Industry
3%
Wastewater
3%
Elimination
3%
Country
3%
Input
3%
Oxygen
3%
Iron-Reducing Bacterium
3%
Dry Matter
3%
Digested Sludge
3%
Addition
3%
Resources
3%
Pyrite
3%
Magnetic Separation
3%
Organic Compound
3%
Efficiency
3%
Sequencing
3%
Heating
3%
Approach
3%
Product
3%
Food Production
3%
Research
3%
Turnover
3%
Struvite
3%
Oxidation
3%
Chemical Engineering
Iron
100%
Phosphate
100%
Anaerobic Digestion
5%
Carbonate
5%
Activated Sludge
5%
Pyrite
2%
Precipitation (Chemical)
2%
Sludge Treatment
2%
Iron Ore
2%
Organic Compound
2%
Heating
2%
Oxygen
2%
Keyphrases
Magnetic Separator
12%
High Iron Content
12%
Iron Reduction
12%
Low Iron
8%
Free Particle
8%
Operational Taxonomic Units
8%
Phosphate Separation
4%
Magnetic Plate
4%
Phosphate Solution
4%
Phosphate Elimination
4%
Fe(III) Reduction
4%
Catalytic Iron
4%
Magnetic Separation
4%
Lose Weight
4%
Essential nutrients
4%
Solid Content
4%
Iron Levels
4%
Fe-S
4%
Struvite Precipitation
4%
Digested Sewage Sludge
4%
Total Phosphate
4%
Sludge Incineration
4%
Iron Carbonate
4%
Fertilizer Production
4%
Recovery Potential
4%
Magnetic Fraction
4%
Minimal Change
4%
Iron-reducing Bacteria
4%
Potential Rate
4%
Dominant Classes
4%
Pre-separation
4%
Material Science
Fertilizer
6%
Hydrocyclone
3%