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Clay liner materials for land disposal of hazardous non-metal wastes
I. M.C. Lo
*
, H. M. Liljestrand
,
J. Khim
, Y. Shimizu
*
Corresponding author for this work
Research output
:
Contribution to journal
›
Conference article
›
peer-review
2
Citations (Scopus)
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Keyphrases
Leachate
100%
Non-metal
100%
Metal Waste
100%
Clay Liner
100%
Land Disposal
100%
Liner Material
100%
Arsenate
66%
Montmorillonite
66%
Sorption
66%
Surface Exchange
66%
Exchange Constant
66%
Sorption Capacity
66%
Intrinsic Surface
66%
Mixed Waste
66%
Hazardous Waste
66%
Anionic Pollutants
66%
Anion Sorption
66%
Clay
33%
In Situ
33%
Anions
33%
Cationic Species
33%
Anion Exchange
33%
Heavy Metals
33%
Efficient Removal
33%
Surface Coating
33%
Phthalates
33%
Organic Anions
33%
Anionic Species
33%
Engineering Application
33%
Soluble Organic Matter
33%
Selenate
33%
Metal Hydroxide
33%
Ion-exchange Mechanism
33%
Exchange Model
33%
Metal Anions
33%
Anionic Surface
33%
Natural Clay
33%
Disposal System
33%
Cresol
33%
Iron Cation
33%
Inorganic Anions
33%
Waste Leachate
33%
Modified Clay
33%
Aluminum Cation
33%
Leachate Transport
33%
Ground Treatment
33%
Surface Ligand Exchange
33%
Engineering
Nonmetal
100%
Leaching
100%
Exchange Constant
40%
Ion Exchange
40%
Engineering Application
20%
Surface Coating
20%
Heavy Metal
20%
Disposal System
20%
Material Science
Surface (Surface Science)
100%
Lining
100%
Arsenate
50%
Heavy Metal
25%
Aluminum
25%
Surface Coating
25%
Selenate
25%
Chemical Engineering
Nonmetal
100%
Leaching
100%
Clay Mineral
40%
Ion Exchange
20%
Heavy Metal
20%
Phenol
20%
Anion Exchange
20%