1. Direct Smelting of Metallurgical Dusts and Ore Fines in a 125t DC-HEP Furnace
- Author
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Peter van Hüllen, Friedrich Höfer, Demetrios C. Papamantellos, Hans Günter Geck, and Theofani Tzevelekou
- Subjects
Kiln ,chemistry.chemical_element ,02 engineering and technology ,engineering.material ,020501 mining & metallurgy ,Materials Chemistry ,Laterite ,Physical and Theoretical Chemistry ,Cement ,Waste management ,business.industry ,Metallurgy ,Metals and Alloys ,Stockpile ,Slag ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Nickel ,0205 materials engineering ,chemistry ,Flash smelting ,visual_art ,Smelting ,engineering ,visual_art.visual_art_medium ,0210 nano-technology ,business - Abstract
In the metallurgical plant of LARCO at Larymna, approximately 200000t/y of nickelferrous dust are collected in the gas cleaning systems of the Rotary Kilns (R/Ks) corresponding to an annual production of 100000t FeNi20%. In addition, a stockpile of one million tons of old R/K dust lies close to the plant and the community of Larymna. A one-stage environmentally friendly process has been developed for the recycling of this dust by direct reduction smelting in a DC arc furnace. The industrial adaptation of this process was tested in the 125t DC-HEP (Direct Current - Hollow Electrode Powder) furnace at Georgsmarienhutte steelwork (GMH) in Germany. About 70t of dust were directly smelted by injection through the hollow electrode of the furnace. The nickel recovery in the metal bath was 93-99.9%. Final products were low nickel alloyed steel grades and slag suitable for special cement types production. Main cause of the dust generation in the R/Ks is the disintegration of laterite and the ore fines fraction after the ore crushing. Their separation, collection and metallurgical exploitation prior to their feeding in the R/Ks would significantly reduce the amount of the generated dust. Therefore, the smelting of untreated laterite ore fines in the DC-HEP furnace was also indicatively tested. Thus, a zero residues industrial production process was developed for the recycling of nickel bearing dust and ore fines by smelting in a DC-arc furnace, since the finally produced FeNi-alloy and slag are 100% utilized in the steel and cement industry respectively.
- Published
- 2004