2020
DOI: 10.1007/s40831-020-00306-2
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Hydrometallurgical Processes for the Recovery of Metals from Steel Industry By-Products: A Critical Review

Abstract: The state of the art for the recovery of metals from steel industry by-products using hydrometallurgical processes is reviewed. The steel by-products are different slags, dusts, and sludges from a blast furnace (BF), basic oxygen furnace (BOF), electric arc furnace (EAF), and sinter plant, as well as oily mill scale and pickling sludge. The review highlights that dusts and sludges are harder to valorize than slags, while the internal recycling of dusts and sludges in steelmaking is inhibited by their high zinc… Show more

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Cited by 72 publications
(33 citation statements)
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References 175 publications
(210 reference statements)
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“…New branches of extractive metallurgy treatment via leaching are an environmentally friendly and CO 2 -free alternative to pyrometallurgical treatment for metal recovery from steelmaking residues [24,25]. Within the scope of the EIT Raw Materials project SAMEX (project number 19205, https://eit-samex.eu/, accessed on 16 May 2021), an ammoniacal process is being developed to treat fine BOF sludge (see Figure 8 [26]).…”
Section: Hydrometallurgical Residue Treatmentmentioning
confidence: 99%
“…New branches of extractive metallurgy treatment via leaching are an environmentally friendly and CO 2 -free alternative to pyrometallurgical treatment for metal recovery from steelmaking residues [24,25]. Within the scope of the EIT Raw Materials project SAMEX (project number 19205, https://eit-samex.eu/, accessed on 16 May 2021), an ammoniacal process is being developed to treat fine BOF sludge (see Figure 8 [26]).…”
Section: Hydrometallurgical Residue Treatmentmentioning
confidence: 99%
“…Hydrometallurgical processes are more selective and thus more efficient while also reducing pollutants. During the last five years, China’s research on recovering vanadium from vanadium slags has increased dramatically [ 142 ]. Waste can be segregated and treated to make new products, and waste is not a waste until it is wasted.…”
Section: Evaluation Of Heavy Metal Pollutionmentioning
confidence: 99%
“… 30 , 6 Recently, low-end applications for EAF dust have been developed, such as an additive material in asphalt or concrete. 31 , 4 The current best option for recycling EAF dust in the zinc raw material loop is by the Waelz process, in which approximately half of the world’s EAF dust is processed. 32 , 33 By introducing new applications for the zinc-containing side streams, recycling would become more profitable.…”
Section: Introductionmentioning
confidence: 99%
“…The EAF route generates Zn-rich dust as a side stream, especially during the recycling of galvanized steel. Basic oxygen furnace or blast furnace dust also contains zinc but in significantly lower concentrations . Production of 1 steel ton generates 10–20 kg of fine electric arc furnace dust (EAFD), which is collected by bag filters or electrostatic precipitators. , The global generation of EAFD is estimated at about 8 million tons annually .…”
Section: Introductionmentioning
confidence: 99%
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