Development of the New Zinc-Separation Process for the Blast Furnace Dust

机译：开发高炉粉尘新型锌分离过程

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Blast furnace dust has been recycled as iron source in the sintering process. However, dust-recycling rate is limited due to the zinc content; therefore, it is necessary to remove zinc from the dust. In this study, laboratory-scale experiments were conducted. The hydrometallurgical process is composed of acid leaching, leachate purification, and zinc recovery. By acid leaching, 68 wt% of zinc and 6.4 wt% of iron were selectively leached under the pH value of 2.0. By the addition of hydrogen peroxide, the iron was completely separated from leachate under the pH value of 5.0. Zinc was finally recovered as zinc hydroxide at alkali condition (pH value of 9.0). The zinc concentration in the sludge was 42.6 wt%. Based on the experimental results, the blast furnace dust can be potentially used as zinc and iron source.

机译：在烧结过程中，高炉灰尘被再循环为铁源。然而，由于锌含量，粉尘回收率受到限制;因此，有必要从灰尘中除去锌。在这项研究中，进行了实验室规模的实验。液压冶金工艺由酸浸出，渗滤液纯化和锌恢复组成。通过酸浸出，在2.0的pH值下选择性地浸出68wt％的锌和6.4wt％的铁。通过加入过氧化氢，将铁完全与5.0的pH值下的渗滤液分离。最终在碱条件下作为氢氧化锌（pH值为9.0）回收锌。污泥中的锌浓度为42.6wt％。基于实验结果，高炉灰尘可以潜在用作锌和铁源。

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《Annual Meeting Exhibition of The Minerals, Metals Materials Society》|2020年|xxiv 986p|共6页
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M. Shinoda; T. Yamaguchi; R. Murai;
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中图分类 TG146-532;
关键词
Blast furnace; Dust-recycling; Zinc-separation; Hydrometallurgy;

机译：高炉;粉尘回收;锌分离;潮湿冶金;

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1. Development of Visual Evaluation and Numerical Analysis System of Blast Furnace - Development of the Visualizing Information Technique of Blast Furnace Process Data [J] . Masahiro ITO, Shinroku MATSUZAKI, Kazumoto KAKIUCHI 新日鉄技報 . 2003,第379期

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2. Development of Visual Evaluation and Numerical Analysis System of Blast Furnace - Development of the Visualizing Information Technique of Blast Furnace Process Data [J] . Masahiro ITO, Shinroku MATSUZAKI, Kazumoto KAKIUCHI 新日鉄技報 . 2003,第379期

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3. OPTIMISATION OF IRON MAKING BY COMPUTER ASSISTED PROCESS CONTROL IN BLAST FURNACES. PART I/MATHEMATICAL MODEL PERFORMANCE, REQUIRED FOR COMPUTER ASSISTED PROCESS CONTROL IN BLAST FURNACES. SOFTWARE APPLICATION "BLAST FURNACE CALCULATION" PERFORMANCE [J] . Nicolae Constantin, Diana Ionita, Augustin Semenescu Metalurgia . 2003,第7期

机译：通过计算机辅助过程控制来控制高炉中铁的生成。第一部分/数学模型性能，高炉的计算机辅助过程控制。软件应用程序“高炉计算”性能
4. Development of the New Zinc-Separation Process for the Blast Furnace Dust [C] . M. Shinoda, T. Yamaguchi, R. Murai Annual Meeting Exhibition of The Minerals, Metals Materials Society . 2020

机译：开发高炉粉尘新型锌分离过程
5. Analysis of packed bed processes simulation of a lead blast furnace : analysis of adsorptive separation processes. [D] . Chao, John T. 1983

机译：铅高炉填充床过程模拟分析：吸附分离过程分析。
6. Use of Cement Kiln Dust Blast Furnace Slag and Marble Sludge in the Manufacture of Sustainable Artificial Aggregates by Means of Cold Bonding Pelletization [O] . Francesco Colangelo, Raffaele Cioffi 2013

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7. Development of Zinc-separating Process of Blast Furnace Dust using Hydrometallurgical System [O] . Mariko Shinoda, Toyoshi Yamaguchi, Ryota Murai, 2019

机译：高炉灰尘系统锌分离过程的研制

Development of the New Zinc-Separation Process for the Blast Furnace Dust

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