2016-Sustainable Industrial Processing Summit
SIPS 2016 Volume 1: D'Abreu Intl. Symp. / Iron and Steel Making

Editors:Kongoli F, Noldin JH, Takano C, Lins F, Gomez Marroquin MC, Contrucci M
Publisher:Flogen Star OUTREACH
Publication Year:2016
Pages:320 pages
ISBN:978-1-987820-37-9
ISSN:2291-1227 (Metals and Materials Processing in a Clean Environment Series)
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    Sustainable Processing of Liquid Steel and Alloys Using Waste Material from the Aluminum Industry

    Yindong Yang1; Mansoor Barati2; Alex McLean2; Karim Danaei2;
    1DEPARTMENT OF MATERIALS SCIENCE & ENGINEERING, UNIVERSITY OF TORONTO, Toronto, Canada; 2DEPARTMENT OF MATERIALS SCIENCE & ENGINEERING, UNIVERSITY OF TORONTO, Toronto, Canada;
    Type of Paper: Plenary
    Id Paper: 224
    Topic: 2

    Abstract:

    Waste slag is a major source of environmental pollution within the metallurgical industry. In the steel industry, about 100-150 kg of waste slag is produced in making one tonne of liquid steel from iron in addition to that produced during ironmaking. The amount of waste slag from the steelmaking converter can be significantly reduced when charging hot metal with low phosphorus and sulphur contents. There is a great interest in searching for fluxes for hot metal pre-treatment and liquid steel refining which produce high efficiency, low cost and environmentally friendly processes. In the aluminium industry, about 2-4 tonnes of waste slag, including by-products (red mud and white mud) from alumina production and dross from aluminum electrolysis and casting, are generated during the production of one tonne of aluminum. Red mud is the by-product from alumina production and it is the largest environmental concern of alumina refineries mainly because of the size of this waste stream and its causticity.
    In this context, the research carried out at the University of Toronto associated with the reuse of waste materials or by-products from the aluminum industry as refining fluxes in the steel industry will be summarized. Topics discussed include: (1) Reuse of white mud generated during aluminum melting and refining for hot metal desulphurization; (2) Using fluxes produced from red mud for hot metal simultaneous dephosphorization and desulphurization, and (3) Removal of phosphorus, sulphur and arsenic from nickel-based alloy generated during the treatment of used catalysts from the petroleum industry. Promising results were achieved in each of these research areas. Sustainable processing of waste materials or by-products from one industrial sector can provide economical refining materials for other industrial sectors and generate environmental and social benefits for both sectors.

    Keywords:

    Aluminum; Metallurgy; Recycling; Slag; Steel; Sustainability; Waste;

    References:

    [1] K.Iwasaki, N. Sano and Y. Matsushita: Phosphorus distribution between slag and metal at hot metal temperatures,Tetsu-To-Hagane, 67(1981), 536-540.
    [2] K. Ito and N. Sano: Phosphorus distribution between CaO-containing slag and carbon-saturated iron at hot metal temperatures,Tetsu-To-Hagane, 69(1983), 1747-1754.
    [3] A. Werme and P-A Lundh: Distribution of phosphorus between some CaO-FeO-SiO2-P2O5 (10%) slags and C-saturated liquid iron at 1300ºC, Scand. Journal of Metallurgy, 16(1985), 33-41.

    Cite this article as:

    Yang Y, Barati M, McLean A, Danaei K. Sustainable Processing of Liquid Steel and Alloys Using Waste Material from the Aluminum Industry. In: Kongoli F, Noldin JH, Takano C, Lins F, Gomez Marroquin MC, Contrucci M, editors. Sustainable Industrial Processing Summit SIPS 2016 Volume 1: D'Abreu Intl. Symp. / Iron and Steel Making. Volume 1. Montreal(Canada): FLOGEN Star Outreach. 2016. p. 135-146.