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Heavy metal(loid)s transformation in dust at a lead smelting site
Wen-Yan GAO
, Kai-Kai WU
, Ting CHEN
,
Wai Chin LI
, Hong-Ren CHEN
, Yue-Ru CHEN
, Hao WU
, Feng ZHU
, Hai-Dong LI
, Chuan WU
, Sheng-Guo XUE
Department of Science and Environmental Studies (SES)
Research output
:
Contribution to journal
›
Articles
›
peer-review
12
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Citations (Scopus)
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Keyphrases
Metalloids
100%
Dust
100%
Smelting Site
100%
Lead Smelting
100%
Pb-Zn
33%
Soluble Fraction
33%
Topsoil
33%
Acid Soluble
33%
Adsorption
16%
Cadmium
16%
Dust Samples
16%
Arsenic
16%
Silica
16%
Acidic Conditions
16%
Major Contributor
16%
Iron Oxide
16%
Behavior Mechanisms
16%
Pb Isotopes
16%
Zinc Sulfate
16%
Cadmium Sulfate
16%
Smelter
16%
Bioavailable Fraction
16%
Central South University
16%
Fume
16%
Smelting Process
16%
Mineral Phase
16%
Geochemical Behavior
16%
Sulfate Minerals
16%
Furnace Dust
16%
PbSO4
16%
Geochemical Modeling
16%
Liberation Mechanism
16%
Dolomite
16%
Bottom-blown Furnace
16%
Major Minerals
16%
Muscovite
16%
Mobile Fraction
16%
Mineralogical Investigation
16%
Earth and Planetary Sciences
Heavy Metal(loid)s
100%
Topsoil
50%
Adsorption
25%
X Ray Diffraction
25%
Multispectral Linear Arrays
25%
Calcite
25%
Dolomite
25%
Iron Hydroxide
25%
Muscovite
25%
Engineering
Heavy Metal
100%
Lead Smelting
100%
Adsorption
25%
Arsenic
25%
Acidic Condition
25%
Mineral Phase
25%
Major Mineral
25%
Chemical Engineering
Heavy Metal
100%
Adsorption
25%
Sulfate Mineral
25%
Calcite
25%
Material Science
Heavy Metal
100%
X-Ray Diffraction
25%
Cadmium
25%
Arsenic
25%