INIS
kazakhstan
100%
removal
90%
storage
71%
carbon dioxide
62%
reactivity
60%
catalysts
58%
carbon
58%
reduction
53%
rivers
45%
surface waters
45%
water chemistry
45%
risk assessment
45%
health hazards
45%
sensitivity analysis
45%
interactions
45%
modeling
45%
transport
45%
bimetals
45%
zeolites
45%
capture
45%
risks
36%
nitrates
32%
metals
28%
heavy metals
27%
water
25%
surfaces
21%
swimming
18%
cancer
18%
capacity
17%
cost
17%
production
16%
emission
16%
applications
15%
adsorption
15%
industry
13%
dawsonite
12%
surface area
12%
minerals
12%
porosity
12%
cobalt
12%
doped materials
12%
assessments
12%
fossil fuels
10%
ammonia
9%
populations
9%
ions
9%
principal component analysis
9%
carcinogens
9%
sulfates
9%
hazards
9%
weathering
9%
mines
9%
crystallization
9%
contamination
9%
sampling
9%
range
9%
values
9%
desorption
7%
water treatment
7%
reaction kinetics
7%
reaction mechanisms
7%
recovery
7%
valence
7%
increasing
7%
waste water
7%
performance
7%
cements
6%
steels
6%
power plants
6%
siderite
6%
ankerite
6%
trapping
6%
impurities
6%
comparative evaluations
6%
oils
6%
geochemistry
6%
carbonates
6%
sandstones
6%
injection
6%
dissolution
6%
carbon sequestration
6%
gases
6%
magnetite
6%
concentration
6%
abundance
6%
simulation
6%
precipitation
6%
nitrogen
6%
hydrogenation
6%
xps
6%
kinetics
6%
efficiency
6%
leaching
6%
durability
6%
Keyphrases
Kazakhstan
45%
West Kazakhstan
45%
Reactive Transport
45%
Modeling Analysis
45%
Sensitivity Analysis
45%
Reductive Removal
45%
PdCu
45%
Cu-BTC
45%
Hg(II)
45%
Hg 0
34%
Dawsonite
30%
CO2 Storage
30%
Water Treatment Technologies
22%
Catalyst Surface
22%
Hg Species
22%
Recreational Sites
22%
Mineral Alteration
15%
Secondary Minerals
15%
Ankerite
15%
PHREEQC Simulation
15%
Geochemical Reactions
15%
Gas Impurities
15%
Geological Characteristics
15%
Siderite
15%
Secondary Carbonates
15%
Iron Oxide
15%
CO2 Injection
15%
Oil Reservoir
15%
Porosity Change
15%
CO2 Storage Capacity
15%
CO2 Trapping
15%
Pre-Caspian Basin
15%
High CO2
15%
Mineralogical Changes
15%
High Abundance
15%
Sandstone Formation
15%
CO2 Sequestration
15%
Porosity
15%
Carbon Sequestration
15%
Fe3+
15%
Geological Analysis
15%
Reservoir Sandstone
15%
Current Needs
15%
Storage Capability
15%
CO2 Storage Site
15%
Valence Change
11%
1,3,5-benzenetricarboxylate
11%
Environmental Water Treatment
11%
Pseudo-second Order
11%
Consecutive Cycles
11%
Reaction Mechanism
11%
Reusability
11%
Catalytic Materials
11%
Adsorption
11%
Reduction Reaction
11%
Species Change
11%
Wastewater Treatment Technologies
11%
High Adsorption Capacity
11%
Hg(II) Removal
11%
Hg Reduction
11%
Sustainable Catalyst
11%
Metal-organic Frameworks (MOFs)
11%
Thermal Desorption
11%
Second-order Rate Constant
11%
Valuable Insight
11%
Environmentally Friendly Production
9%
Capture Cost
8%