Обзор мировой практики переработки красных шламов. Часть 1. Пирометаллургические способы

Д. В. Зиновеев, Павел Иванович Грудинский, Валерий Григорьевич Дюбанов, Л. В. Коваленко, Леопольд Игоревич Леонтьев
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引用次数: 14

Abstract

This review considers the papers aimed to find an effective solution to the red mud utilization problem. Red mud or bauxite residue is a hazardous materials that are generating during production of alumina by the Bayer process. Depending on the composition of bauxite and the technology, production of 1 ton alumina forms from 0.9 to 1.5 tons of this waste. The global inventory of red mud is estimated at about 4 billion ton in 2015. The main quantity of bauxite residue is not processed, but pumped into land-based ponds and it leads to environmental pollution. In 2010 in Hungary a pond containing red mud were collapsed, freeing about 700 thousand m3 of liquid waste, as a result 10 people were died, about 350 houses were destroyed and significant regions were polluted. Red mud obtained by different plants has various chemical and phase compositions. Despite this fact the main components of red mud is iron-containing minerals, so bauxite residue can be considered primarily as a raw material for the metallurgical industry. This part of the review considers pyrometallurgical methods for of red mud treatment, including both methods of low-temperature reduction at temperatures of 1050 - 1200 °C and high-temperature reduction melting, as well as utilization methods of the resulting slags. These slag utilization methods can be used for extraction of alumina, titanium and rare-earth metals, obtaining building materials such as various cements, mineral wool and flux materials for metallurgy. Methods of alkali removing, drying and agglomeration of red mud also considered. It has been shown that the best ways of bauxite residue recycling are the pyrometallurgical methods with obtaining of iron-containing product and slag for the production of building materials or metallurgical fluxes. These techniques make possible to utilize a large amount of red mud with exception of additional waste formation. This is the first part in a series of three related reviews examining the world experience of red mud recycling by various ways.
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这是对全球红渣回收实践的概述。第1部分。пирометаллургическ方法
本文旨在为解决赤泥资源化利用问题寻找有效途径。赤泥或铝土矿渣是拜耳法生产氧化铝过程中产生的有害物质。根据铝土矿的成分和技术的不同,生产1吨氧化铝需要0.9到1.5吨这种废料。2015年,全球赤泥库存估计约为40亿吨。铝土矿渣大部分没有经过处理,而是直接排入陆基池塘,造成了环境污染。2010年,在匈牙利,一个含有红泥的池塘倒塌,释放出约70万立方米的液体废物,导致10人死亡,约350所房屋被毁,大片地区受到污染。由不同植物获得的赤泥具有不同的化学和物相组成。尽管如此,红泥的主要成分是含铁矿物,所以铝土矿渣可以主要被认为是冶金工业的原料。这一部分综述了热法冶金处理赤泥的方法,包括1050 - 1200℃低温还原法和高温还原熔融法,以及所产生的炉渣的利用方法。这些渣利用方法可用于提取氧化铝、钛和稀土金属,获得各种水泥、矿棉和冶金用助熔剂等建筑材料。讨论了赤泥的脱碱、干燥和结块方法。研究表明,铝土矿渣回收利用的最佳途径是采用火法冶炼获得含铁产品和矿渣,用于生产建筑材料或冶金助熔剂。这些技术使利用大量赤泥成为可能,但会产生额外的废物。这是一系列三个相关综述的第一部分,这些综述考察了世界上各种方法回收赤泥的经验。
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来源期刊
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya Materials Science-Materials Science (miscellaneous)
CiteScore
0.90
自引率
0.00%
发文量
81
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