The technology of self-reducing pellets for ferro-alloys production is becoming an emerging process due to the lower electric energy consumption and the improvement of metal recovery in comparison with the traditional process. This paper presents the effects of reduction temperature, addition of ferro-silicon and addition of slag forming agents for the production of high carbon ferro-chromium by utilization of selfreducing pellets. These pellets were composed of Brazilian chromium ore (chromite) concentrate, petroleum coke, Portland cement, ferro-silicon and slag forming components (silica and hydrated lime). The pellets were processed at 1 773 K, 1 823 K and 1 873 K using an induction furnace. The products obtained, containing slag and metallic phases, were analyzed by scanning electron microscopy and chemical analyses (XEDS). A large effect on the reduction time was observed by increasing the temperature from 1 773 K to 1 823 K for pellets without Fe-Si addition: around 4 times faster at 1 823 K than at 1 773 K for reaction fraction close to one. However, when the temperature was further increased from 1 823 K to 1 873 K the kinetics improved by double. At 1 773 K, the addition of 2% of ferro-silicon in the pellet resulted in an increasing reaction rate of around 6 times, in comparison with agglomerate without it. The addition of fluxing agents (silica and lime), which form initial slag before the reduction is completed, impaired the full reduction. These pellets became less porous after the reduction process.
The influence of binders on the mechanical properties of chromite, self-reducing pellets, after subjecting to high temperatures, is analyzed in this paper. Bentonite, sodium silicate, and a combination of bentonite with carboxymethyl cellulose (CMC) were tested with different contents. All of the raw materials were characterized by chemical analysis and particle size distribution. The materials were pelletized (P1 to P7). All of the bounded green and dried pellets (P2 to P7) achieved the desired mechanical strengths, and none presented decrepitation. The best performance was obtained by the pellet P7 (4% sodium silicate as binder), with the green strength of 34 N/pellet, the dried strength of 50 N/pellet, and the strength was higher than 110 N/pellet after heat treatment at critical temperatures between 1173 and 1373 K. The unitary reduction reaction fraction was achieved after 10 minutes, at 1773 K.
ResumoO lixo orgânico doméstico gera um problema de eliminação crescente, exigindo sistemas de processamento dispendiosos. É necessário encontrar novas aplicações para estes resíduos; uma poderia ser como matéria prima metalúrgica. Neste trabalho é estudado o desenvolvimento de pelotas auto-redutoras usando a pirólise de resíduos orgânicos, onde é gerado carbono e voláteis condensáveis e não condensáveis. O alcatrão resultante foi misturado com minério de ferro, pó de carvão e fluxante (CaO), para produzir as pelotas. O carvão fluidizado cria uma forte aderência dos elementos, mostrando uma boa viabilidade do presente processo. Palavras-chave: Auto-redução; Resíduos orgânicos; Pirólise; Alcatrão. THE SELF-REDUCING PELLET PRODUCTION FROM ORGANIC HOUSEHOLD WASTE AbstractThe domestic organic waste disposal generates an increasing problem requiring expensive processing systems. It is necessary to find new applications for these wastes; one could be as metallurgical raw material. This paper examines the development of self-reducing pellets using pyrolysis of organic waste, which generated carbon and condensable and non-condensable volatile. The resulting tar was mixed with iron ore, coal powder and flux (CaO) to produce pellets. The fluidized coal creates a strong grip of the elements, showing a good feasibility of this process.
Resumo A pelotização é o método de aglomeração de minério que oferece o melhor custo benefício. No processo, é necessária a adição de um aglomerante para conseguir as propriedades desejadas. Entre estes, o cimento é um dos destaques pela facilidade e custo. A adição de pozolânicos no concreto na construção civil para o aumento da resistência é de longa data. Neste trabalho, se estuda o efeito da adição de 1% de SiO2 ou bentonita na mistura das pelotas autorredutoras. Realizam-se ensaios de compressão a frio, compressão após tratamento térmico 950°C, Teste de abrasão a quente, teste de quedas, além de difração de raios-X. Como resultados obteve-se um incremento da resistência a compressão a frio e a abrasão a quente com a adição da bentonita, porém com ambos pozolânicos tem-se uma perda de 50% na resistência a compressão após tratamento térmico a 950°C.
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