Keyphrases
Nanotechnology
100%
Groundwater Remediation
100%
Predictive Modeling
100%
Nanoremediation
100%
Nano Zero Valent Iron (nZVI)
80%
Contaminated Sites
60%
Chlorinated Solvents
60%
In Situ Remediation
60%
Brazil
40%
In Situ
40%
Soil Contamination
40%
Ex Situ Technique
40%
Incineration
20%
Sensitivity Analysis
20%
Socio-economic Impact
20%
São Paulo
20%
Bioremediation
20%
Porosity
20%
Contaminant Removal
20%
Landfill
20%
Publicly Available
20%
Reaction Time
20%
Large Surface Area
20%
Remobilization
20%
Hydraulic Conductivity
20%
Multiphase Flow in Porous Media
20%
Pore-scale Study
20%
3D Model
20%
Reaction Rate
20%
Groundwater Resources
20%
Piston-like Displacement
20%
Small Footprint
20%
Pore Structure
20%
Groundwater Contamination
20%
Plume
20%
Effective Application
20%
Local Business
20%
Collaborative Research
20%
Contaminated Water
20%
Rainfall
20%
Emerging Techniques
20%
Contamination Sources
20%
In Situ Degradation
20%
Fluid Mobility
20%
Environmental Reports
20%
Aquifer Modeling
20%
Preferential Flow Paths
20%
Aquifer System
20%
In Situ Chemical Oxidation
20%
Iron Concentration
20%
Contaminated Areas
20%
MZVI
20%
Tropical Soils
20%
Spatial Disadvantage
20%
Business Disruption
20%
Groundwater System
20%
Contamination Plume
20%
Potassium Permanganate
20%
Invasiveness
20%
Reactive Materials
20%
Soil Removal
20%
Soil Excavation
20%
Chemical Degradation
20%
Contamination Transport
20%
Operating Facilities
20%
Iron Injection
20%
Earth and Planetary Sciences
Groundwater Remediation
100%
Contaminated Soil
100%
Brazil
100%
Field Scale
100%
United Kingdom
50%
Incineration
50%
Porosity
50%
Bioremediation
50%
Pore Scale
50%
Remobilization
50%
Hydraulic Conductivity
50%
Multiphase Flow in Porous Medium
50%
Surface Area
50%
Groundwater Resource
50%
Microbalance
50%
Socioeconomic Impact
50%
Contaminated Area
50%
Tropical Soil
50%
Invasiveness
50%
Groundwater Contamination
50%
Environmental Report
50%
Chemical Degradation
50%
Preferential Flow
50%