A novel recycling approach for efficient extraction of titanium from high-titanium-bearing blast furnace slag

•A novel process for extraction titanium from high Ti-BF slag has been proposed.•The effects of Fe2O3, urea and sawdust additives on the reaction have been studied.•The proposed novel recycling process has been assessed.•The novel recycling process showed many potential advantages and great feasibil...

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Bibliographic Details
Published in:Waste management (Elmsford) 2021-02, Vol.120, p.626-634
Main Authors: Fan, Gangqiang, Wang, Meng, Dang, Jie, Zhang, Run, Lv, Zepeng, He, Wenchao, Lv, Xuewei
Format: Article
Language:English
Subjects:
Carbonitride
CH4-N2-H2 gas mixture
Gases
High titanium-bearing blast furnace slag
Recycling
Sawdust
Ti(C, N, O)
Titanium
Urea
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Summary:•A novel process for extraction titanium from high Ti-BF slag has been proposed.•The effects of Fe2O3, urea and sawdust additives on the reaction have been studied.•The proposed novel recycling process has been assessed.•The novel recycling process showed many potential advantages and great feasibility. The recycling of high-titanium-bearing blast furnace slag (TiO2 > 23 wt.%) is an urgent problem that has attracted global research attention. To achieve high-efficiency, low-consumption, clean, and high value-added recycling utilization, a new process is proposed herein, which entails reacting a CH4-H2-N2 gas mixture with the titanium-bearing blast furnace slag to initially produce Ti(C, N, O) at a low temperature, whereafter the product is purified and chlorinated. The effects of Fe2O3, urea, and sawdust on the reduction and carbonitriding characteristics are also investigated. The results indicate that the Fe2O3 additive can promote the formation of Ti(C, N, O), while urea and sawdust are instrumental for enhancing gas diffusion in solid powders. The proposed novel recycling process was assessed and it evinced many advantages and great feasibility.
ISSN:0956-053X
1879-2456
DOI:10.1016/j.wasman.2020.10.024