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

Gangqiang Fan; Meng Wang; Jie Dang; Run Zhang; Zepeng Lv; Wenchao He; Xuewei Lv

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

机译：一种新的回收方法，可利用高钛高炉炉渣提取钛

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The recycling of high-titanium-bearing blast furnace slag (TiO_2 ＞ 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 CH_4-H_2-N_2 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 Fe_2O_3, urea, and sawdust on the reduction and carbonitriding characteristics are also investigated. The results indicate that the Fe_2O_3 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.

机译：含高钛高炉渣（TiO_2> 23重量％）的回收是一种紧迫的问题，吸引了全球研究的关注。为了实现高效率，低消耗，清洁和高附加值的回收利用，本文提出了一种新的方法，这需要与载钛高炉渣反应，以最初产生Ti的钛合金（C，N，O）在低温下，此后纯化产物并氯化。还研究了Fe_2O_3，尿素和锯末对减少和碳氮化特性的影响。结果表明，Fe_2O_3添加剂可以促进Ti（C，N，O）的形成，而尿素和锯末是用于增强固体粉末的气体扩散的仪器。拟议的新型回收过程得到评估，并且它表现出许多优点和良好的可行性。

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来源
《Waste Management》 |2021年第2期|626-634|共9页
作者
Gangqiang Fan; Meng Wang; Jie Dang; Run Zhang; Zepeng Lv; Wenchao He; Xuewei Lv;
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College of Materials Science and Engineering Chongqing University Chongqing 400044 PR China Chongqing Key Laboratory of Vanadium-Titanium Metallurgy and New Materials Chongqing University Chongqing 400044 PR China;

College of Materials Science and Engineering Chongqing University Chongqing 400044 PR China Chongqing Key Laboratory of Vanadium-Titanium Metallurgy and New Materials Chongqing University Chongqing 400044 PR China;

College of Materials Science and Engineering Chongqing University Chongqing 400044 PR China Chongqing Key Laboratory of Vanadium-Titanium Metallurgy and New Materials Chongqing University Chongqing 400044 PR China;

College of Materials Science and Engineering Chongqing University Chongqing 400044 PR China Chongqing Key Laboratory of Vanadium-Titanium Metallurgy and New Materials Chongqing University Chongqing 400044 PR China;

College of Materials Science and Engineering Chongqing University Chongqing 400044 PR China Chongqing Key Laboratory of Vanadium-Titanium Metallurgy and New Materials Chongqing University Chongqing 400044 PR China;

College of Materials Science and Engineering Chongqing University Chongqing 400044 PR China Chongqing Key Laboratory of Vanadium-Titanium Metallurgy and New Materials Chongqing University Chongqing 400044 PR China;

College of Materials Science and Engineering Chongqing University Chongqing 400044 PR China Chongqing Key Laboratory of Vanadium-Titanium Metallurgy and New Materials Chongqing University Chongqing 400044 PR China;

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High titanium-bearing blast furnace slag; Ti(C, N, O); CH_4-N_2-H_2 gas mixture; Carbonitride; Urea; Sawdust;

机译：高钛金高炉炉渣;ti（c;n;o）;CH_4-N_2-H_2气体混合物;碳氮化物;尿素;锯末;

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专利

1. Particle size controllable jet milling technology for efficiently recycling titanium-bearing blast furnace slag: Numerical simulation and industrial test [J] . Journal of Cleaner Production . 2020,第Feba20期

机译：有效控制含钛高炉矿渣粒度控制的喷射研磨技术：数值模拟和工业试验
2. Titanium distribution between blast furnace slag and iron for blast furnace linings protection [J] . Sun Jian, Wang Shuai, Chu Mansheng, Ironmaking & Steelmaking . 2020,第5期

机译：高炉炉渣与铁的钛分布，用于高炉衬里保护
3. Direct extraction of perovskite CaTiO3 via efficient dissociation of silicates from synthetic Ti-bearing blast furnace slag [J] . Wu Min-Zhi, Lu Hui-Hong, Liu Min-Chao, Hydrometallurgy . 2017,第期

机译：通过从合成的Ti-Hairs高炉炉渣的有效解离硅酸盐的高效解离钙钛矿CATIO3
4. STUDY ON EXTRACTION OF TITANIUM FROM TITANIUM-BEARING BLAST FURNACE SLAGS [C] . Qing Xiao, Jing Zhang, Yahui Feng, Characterization of minerals, metals, and materials 2014 . 2014

机译：从含钛高炉炉渣中提取钛的研究
5. The Effects of Air-Cooled Blast Furnace Slag (ACBFS) Aggregate on the Chemistry of Pore Solution and the Interfacial Transition Zone [D] . Panchmatia, Parth. 2017

机译：风冷高炉矿渣（ACBFS）聚集体对孔隙溶液化学性质和界面过渡区的影响
6. Strength and Durability Characteristics of Cement Composites with Recycled Water and Blast Furnace Slag Aggregate [O] . Se-Jin Choi, Sung-Ho Bae, Jae-In Lee, 2021

机译：水泥复合材料与再生水和高炉炉渣聚集体的强度和耐久性特性
7. Preparation of Slag Wool by Integrated Waste-Heat Recovery and Resource Recycling of Molten Blast Furnace Slags: From Fundamental to Industrial Application [O] . Dawei Zhao, Zuotai Zhang, Xulong Tang, 2014

机译：熔渣高炉渣综合余热回收利用制备渣滓：从基础到工业应用
8. Assessment of Atmospheric Emissions from Quenching of Blast Furnace Slag with Blast Furnace Blowdown Water [R] . Annamraju, G. , Kemner, W. , Schworer, P. J. 1984

机译：高炉排渣高炉淬火大气排放评价

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

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