Iron extraction from copper slag by additive-free activation roasting-magnetic separation

IF 4.9 2区工程技术 Q1 ENGINEERING, CHEMICAL

Minerals Engineering Pub Date : 2024-08-31 DOI:10.1016/j.mineng.2024.108956

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Abstract

Iron grain growth during deep reduction roasting is important for iron enrichment from copper slag (CS) through magnetic separation. In this work, a novel method of additive-free activation roasting, including oxidation and subsequent reduction roasting, was proposed to increase the iron grain size, then the iron was extracted by magnetic separation. The phase transformation of CS during activation roasting was studied by TG, XRD, SEM, and EDS. Results showed that the main mineral of fayalite in CS was decomposed into iron oxides and silica during oxidation roasting, and the thickness of iron oxide layer on the particle surface increased with the oxidation temperature. During reduction roasting, the CS and oxidized copper slag (OCS) were ultimately converted into metallic iron and cristobalite solid solution. In the reduced product obtained at 1150 °C, the iron grain sizes were 6.42 μm and 16.62 μm from CS and OCS-1100 °C, respectively. Furthermore, the Fe content in the magnetic concentrate was 72.86 % in the reduced product of CS while that was 87.85 % in the reduced product of OCS-1100 °C with an Fe recovery of ∼ 85 %. This study opens a new direction for iron enrichment from copper slag.

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通过无添加剂活化焙烧-磁分离法从铜渣中提取铁

深度还原焙烧过程中铁晶粒的生长对于通过磁选从铜渣（CS）中富集铁非常重要。本研究提出了一种新型的无添加剂活化焙烧方法，包括氧化焙烧和随后的还原焙烧，以增加铁晶粒尺寸，然后通过磁选提取铁。通过 TG、XRD、SEM 和 EDS 研究了 CS 在活化焙烧过程中的相变。结果表明，在氧化焙烧过程中，CS 中的主要矿物费来石被分解成铁氧化物和二氧化硅，颗粒表面的铁氧化物层厚度随氧化温度的升高而增加。在还原焙烧过程中，CS 和氧化铜渣（OCS）最终转化为金属铁和霞石固溶体。在 1150 °C 得到的还原产物中，CS 和 OCS-1100 °C 的铁晶粒大小分别为 6.42 μm 和 16.62 μm。此外，在 CS 的还原产物中，磁性精矿的铁含量为 72.86%，而在 OCS-1100 °C 的还原产物中，铁含量为 87.85%，铁回收率为 85%。这项研究为从铜渣中富集铁开辟了一个新方向。

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来源期刊

Minerals Engineering 工程技术-工程：化工

CiteScore

8.70

自引率

18.80%

发文量

519

审稿时长

81 days

期刊介绍： The purpose of the journal is to provide for the rapid publication of topical papers featuring the latest developments in the allied fields of mineral processing and extractive metallurgy. Its wide ranging coverage of research and practical (operating) topics includes physical separation methods, such as comminution, flotation concentration and dewatering, chemical methods such as bio-, hydro-, and electro-metallurgy, analytical techniques, process control, simulation and instrumentation, and mineralogical aspects of processing. Environmental issues, particularly those pertaining to sustainable development, will also be strongly covered.