INIS
waste water
100%
recovery
68%
phosphorus
61%
sludges
46%
crystallization
43%
precipitation
37%
production
36%
economics
35%
cost
33%
evaluation
31%
phosphates
30%
magnesium
29%
magnesium hydroxides
22%
applications
22%
food
20%
urine
20%
storage
20%
seawater
20%
anaerobic digestion
18%
methane
17%
kinetics
16%
wastes
15%
nutrients
15%
concentration
15%
magnesium oxides
14%
performance
14%
reactors
14%
fluidized bed reactors
13%
water
12%
denitrification
12%
nitrogen
12%
chile
12%
sewage sludge
11%
accumulation
11%
calcium phosphates
11%
water supply
11%
ambient temperature
10%
ozone
10%
chains
10%
nitrification
10%
reviews
10%
retention
10%
simulation
10%
hydraulics
10%
pellets
10%
validation
10%
chemical engineering
10%
drinking water
10%
economic impact
10%
waste management
10%
Keyphrases
Phosphorus Recovery
49%
Struvite Crystallization
45%
Struvite
39%
Wastewater Treatment Plant
35%
Magnesium
31%
Seawater
26%
Magnesium Hydroxide
23%
Industrial Wastewater
20%
Wastewater
20%
Magnesium Source
19%
Phosphorus
19%
Struvite Precipitation
18%
Anaerobic Digestion
17%
Sludge
16%
Industrial Grade
14%
Chile
14%
Nutrient Recovery
13%
Polyhydroxyalkanoates
13%
Ammonium Ion
13%
Municipal Wastewater
13%
Fluidized Bed Reactor
13%
Sewage Sludge
13%
Sludge Production
13%
Reactor
13%
Denitrification
12%
Urban Wastewater Treatment Plant
12%
Phosphate Concentration
11%
Methane
11%
Operating Conditions
11%
Agro-food Waste
10%
Nitrogen Recovery
10%
Urban Wastewater Treatment
10%
Denitrification Process
10%
Biorefinery
10%
Methane Recovery
10%
Antofagasta
10%
Treatment Plant
10%
Food Waste Management
10%
Solid Residence Time
10%
Techno-economic Assessment
10%
Ozone Application
10%
Environmental Impact
10%
Chemical Approach
10%
Intermediate Compounds
10%
Autotrophic Denitrification
10%
Food Waste
10%
Environmental Engineering
10%
Full-scale Plant
10%
Drinking Water Supply
10%
Two-stage Anaerobic Digestion
10%