Zinc Vaporization and Self-reduction Behavior of Industrial Waste Residues for Recycling to the HIsarna Furnace

Within the steelmaking industry, a large amount of zinc-bearing waste is produced which cannot be effectively treated through integrated steel mills. Concurrently, zinc smelters generate waste residues containing significant amounts of iron and zinc which are stored or landfilled. The zinc concentra...

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Veröffentlicht in:	Journal of sustainable metallurgy 2022-06, Vol.8 (2), p.658-672
Hauptverfasser:	Kerry, Timothy, Peters, Alexander, Georgakopoulos, Evangelos, Dugulan, Iulian, Meijer, Koen, Hage, Johannes, Offerman, Erik, Yang, Yongxiang
Format:	Artikel
Sprache:	eng
Schlagworte:	Basic converters Blast furnace gas Blast furnace iron mixers Carbon content Dust Earth and Environmental Science Environment Flue dust Industrial wastes Iron and steel making Iron and steel plants Ironmaking Metallic Materials Mixtures Oxygen steel making Recyclability Reducing agents Research Article Residues Smelters Sustainable Development Vapor phases Vaporization Zinc
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creator	Kerry, Timothy Peters, Alexander Georgakopoulos, Evangelos Dugulan, Iulian Meijer, Koen Hage, Johannes Offerman, Erik Yang, Yongxiang
description	Within the steelmaking industry, a large amount of zinc-bearing waste is produced which cannot be effectively treated through integrated steel mills. Concurrently, zinc smelters generate waste residues containing significant amounts of iron and zinc which are stored or landfilled. The zinc concentration of iron and steelmaking residues inhibits its recycling to the blast furnace but is insufficient to be sent directly to the zinc producers. Consequently, a means of up-concentration is required. The pilot HIsarna ironmaking furnace has shown potential for processing secondary iron-bearing resources. Furthermore, zinc can be concentrated in the off-gas flue dust, providing an enriched input for zinc smelters. The potential recyclability of blast furnace (BF) and basic oxygen furnace (BOF) dust and ‘goethite’ residue from the zinc industry has been studied. The input materials have been comprehensively characterized and their reduction–vaporization behavior, has been investigated. Individual samples were tested at temperatures of up to 1300 °C. Here, it was shown that minimal reduction of iron and volatilization of zinc occurred in the goethite and BOF samples. Conversely, even at 1000 °C, the BF dust showed complete reduction of iron and removal of zinc within 30 min. This was due to its high carbon content (40 wt%) which can act as a reductant. Consequently, mixtures of BOF dust and goethite with BF dust were studied. It has been shown that mixtures of 30:70 BF dust to goethite and 20:80 BF dust to BOF dust are suitable for recovering zinc to the gas phase and fully reducing the contained iron. Graphical Abstract
doi_str_mv	10.1007/s40831-021-00440-5
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Here, it was shown that minimal reduction of iron and volatilization of zinc occurred in the goethite and BOF samples. Conversely, even at 1000 °C, the BF dust showed complete reduction of iron and removal of zinc within 30 min. This was due to its high carbon content (40 wt%) which can act as a reductant. Consequently, mixtures of BOF dust and goethite with BF dust were studied. It has been shown that mixtures of 30:70 BF dust to goethite and 20:80 BF dust to BOF dust are suitable for recovering zinc to the gas phase and fully reducing the contained iron. 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The input materials have been comprehensively characterized and their reduction–vaporization behavior, has been investigated. Individual samples were tested at temperatures of up to 1300 °C. Here, it was shown that minimal reduction of iron and volatilization of zinc occurred in the goethite and BOF samples. Conversely, even at 1000 °C, the BF dust showed complete reduction of iron and removal of zinc within 30 min. This was due to its high carbon content (40 wt%) which can act as a reductant. Consequently, mixtures of BOF dust and goethite with BF dust were studied. It has been shown that mixtures of 30:70 BF dust to goethite and 20:80 BF dust to BOF dust are suitable for recovering zinc to the gas phase and fully reducing the contained iron. 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subjects	Basic converters Blast furnace gas Blast furnace iron mixers Carbon content Dust Earth and Environmental Science Environment Flue dust Industrial wastes Iron and steel making Iron and steel plants Ironmaking Metallic Materials Mixtures Oxygen steel making Recyclability Reducing agents Research Article Residues Smelters Sustainable Development Vapor phases Vaporization Zinc
title	Zinc Vaporization and Self-reduction Behavior of Industrial Waste Residues for Recycling to the HIsarna Furnace
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