Experimental Study on Collaborative Electric Furnace Dust Reduction with Multi-solid Waste in Steel Plants: Turning Waste into Treasure, Saving Energy and Reducing Emissions

IF 2.1 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
JOM Pub Date : 2024-08-12 DOI:10.1007/s11837-024-06798-7
Dongjie Zhou, Dianchun Ju, Zhuo Chen, Weitong Du, Jiayong Qiu, Shui Yu, Haiwei Yao, Rui Mao, Han Ma
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Abstract

Rotary hearth furnaces and rotary kilns are the mainstream methods for large-scale treatment of electric furnace dust (EAFD) in steel companies, but they require a large amount of energy and have low product quality. The roasting conversion–separation technology uses calcium oxide to promote the conversion of zinc–iron spinel in EAFD into zinc oxide and dicalcium ferrite, but adding calcium oxide additionally increases production costs. Converter sludge (OGS) is rich in iron oxides and valuable components such as CaO, CaCO3, ZnFe2O4, etc. The free calcium oxide and calcium carbonate can be used as substitutes for pure calcium oxide. This paper designed a multi-solid waste collaborative reduction roasting process to realize the recovery of zinc and iron elements from OGS and EAFD and explore the feasibility of industrial treatment in rotary hearth furnace. The results show that harmful OGS can be used as the calcium agent in the roasting process. The calcium carbonate in OGS not only improves the conversion of iron oxide into metallic iron, but the decomposed CaO can promote the conversion of zinc–iron spinel in OGS and improve the dezincification effect. Better conditions are: 60% OGS, nC/nO = 1.2, roasting temperature 1150°C, roasting for 25 min; zinc content in the reduction product is 0.21%, and metallization rate is 78.53%, which can be used as a high-quality substitute or coolant for scrap steel raw materials in the steelmaking process. This process can realize green and comprehensive utilization of EAFD and OGS and is expected to achieve industrialization.

Abstract Image

利用钢铁厂多固体废物协同减少电炉粉尘的实验研究:变废为宝、节能减排
回转炉和回转窑是钢铁企业大规模处理电炉粉尘(EAFD)的主流方法,但它们需要大量能源,而且产品质量不高。焙烧转化分离技术利用氧化钙促进 EAFD 中的锌铁尖晶石转化为氧化锌和铁氧体二钙,但添加氧化钙会额外增加生产成本。转炉污泥(OGS)富含氧化铁和有价值的成分,如 CaO、CaCO3、ZnFe2O4 等。游离氧化钙和碳酸钙可用作纯氧化钙的替代品。本文设计了一种多固体废物协同还原焙烧工艺,实现了从 OGS 和 EAFD 中回收锌和铁元素,并探讨了在回转炉中进行工业处理的可行性。结果表明,有害的 OGS 可用作焙烧过程中的钙剂。OGS 中的碳酸钙不仅能提高氧化铁向金属铁的转化,而且分解的 CaO 能促进 OGS 中锌铁尖晶石的转化,提高脱锌效果。更好的条件是60% OGS,nC/nO = 1.2,焙烧温度 1150℃,焙烧时间 25 分钟;还原产物中锌含量为 0.21%,金属化率为 78.53%,可作为炼钢过程中废钢原料的优质替代品或冷却剂。该工艺可实现 EAFD 和 OGS 的绿色综合利用,有望实现产业化。
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来源期刊
JOM
JOM 工程技术-材料科学:综合
CiteScore
4.50
自引率
3.80%
发文量
540
审稿时长
2.8 months
期刊介绍: JOM is a technical journal devoted to exploring the many aspects of materials science and engineering. JOM reports scholarly work that explores the state-of-the-art processing, fabrication, design, and application of metals, ceramics, plastics, composites, and other materials. In pursuing this goal, JOM strives to balance the interests of the laboratory and the marketplace by reporting academic, industrial, and government-sponsored work from around the world.
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