Investigation of hazardous waste a case study of electric arc furnace dust characterization
Dust from an electric arc furnace is formed as the main by-product of the steel production process from the secondary iron-based raw materials. This dust has significant contents of Zn and Fe, as well as Pb, Cd, Ca, Mg, Cr, Mn, Si, Ni, Cu, F, Cl and other elements and is considered hazardous industr...
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Veröffentlicht in: | Hemijska industrija 2022-01, Vol.76 (4), p.237-249 |
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Sprache: | eng |
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Zusammenfassung: | Dust from an electric arc furnace is formed as the main by-product of the
steel production process from the secondary iron-based raw materials. This
dust has significant contents of Zn and Fe, as well as Pb, Cd, Ca, Mg, Cr,
Mn, Si, Ni, Cu, F, Cl and other elements and is considered hazardous
industrial solid waste since it contains heavy metals. In order to protect
the environment and public health from the negative impact of this type of
hazardous waste, it is necessary, even mandatory, to carry out its treatment
in accordance with the legislation of the country where it is located.
Before applying any treatment of the electric arc furnace (EAF) dust, it is
necessary to perform its detailed characterization. In this paper, the
following characterization of EAF dust originating in the Republic of
Serbia was performed: physical-mechanical and chemical characterization,
determination of granulometric composition, and mineralogical
characterization. Also, the EAF dust impact on the environment and human
health was assessed (Leachability and Toxicity Characteristic Leaching
Procedure (TCLP) tests). The results have shown that the Zn content is in
the range 32 to 35 % and that the main mineralogical phases of the dust are
zincite, franklinite, magnetite, and magnesioferrite. Granulometric analysis
has shown that 80 % of the sample consists of particles less than 26 ?m in
size. According to the leaching test results, the EAF dust is characterized
as a hazardous waste due to the increased chloride content, while the TCLP
test indicated dust toxicity due to the increased contents of Zn, Cd, and
Pb. |
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ISSN: | 0367-598X 2217-7426 |
DOI: | 10.2298/HEMIND220609018T |