Abstract Electric Arc Furnace Dust (EAFD) is a solid waste originated from electric steelmaking furnaces. Currently, according to some authors, there is an estimated generation of 15 to 25 kg of dust ...per ton of steel produced. The formation of the dust is related to the following steps of the process: furnace charge, metal volatilization, iron vaporization under the arc, drag of solid particles and, mainly by the collapse of CO bubbles from metallic bath decarburation. The dust has metals that are harmful to the environment. Otherwise, it is mostly composed of the elements iron, zinc and oxygen. Due to increasing costs for disposal and because it is considered a hazardous waste, industry is looking at the possibility of returning the dust to the steelmaking process. One of the alternatives is by reintroducing the waste in an electric melting shop using self-reducing agglomerates as part of the furnace burden. In this study, self-reducing mixtures are prepared with EAFD and petroleum coke (PET), presenting chemical and physical characterizations. An evaluation about the behavior of the mixtures is carried out in thermobalance, regarding the possibility of use in measuring accurate PET content in self-reducing pellets. As results it could be stated that the elements of economic interest, Zn and Fe, represent, respectively, 34.23 and 22.80%, in weight. These elements are present in chemical species frankilinite, zincite and magnetite and the reducible oxygen was estimated as 17.90%. Also, it was concluded the optimal content of petroleum coke in the mixtures varies from 10 to 15%, in weight. Therefore, the utilization potential of the thermogravimetric technique in the industrial field for adjustment of carbon content in batches of self-reducing pellets is satisfactory.
Abstract The amount of Electric Arc Furnace Dust (EAFD) is continuously increasing in mini-mill steel plants. This dust is considered a hazardous waste because of the presence of elements like lead, ...cadmium and chromium. Among many different treatment processes for this issue, there is the possibility of returning the EAFD back to the Electric Arc Furnace. This article presents a study of the compressive strength of self-reducing cold bonded pellets as well as their zinc removal, in an agglomerate containing EAFD, petroleum coke (PET) and Portland cement. The effects of the reductant and binder employed were discussed. Moreover, an apparatus was built to prevent zinc gas reoxidation inside an electric vertical laboratory furnace. Thus, the fraction of weight loss complemented the result of a previous study indicating the optimal content of PET source usage between 10 to 15%, in mass. Zinc removal and additional X Ray Diffraction outcomes are shown and discussed, concluding that 80% of zinc removal for this system could indicate the possibility of the EAFD reuse.
The technology used in manufacturing steel for mechanical constructions has made great progress in recent years, resulting in a remarkable reduction of the impurities in special steel. One of these ...impurities is known as macroinclusion, the presence of which can cause serious defects in the steel structure. In a melt shop, where the semi-finished product is formed, there are several variables that can cause the formation of impurities in the steel and must be controlled. Therefore, by analyzing the influence of the primary melt shop variables, including: the iron and manganese oxides of the ladle slag (FeO+MnO), the stopper rod level variation and the argon pressure in the shroud between ladle and tundish in continuous casting; it was possible to establish a relationship between scrap generation and these process variables, through the creation of an investigation method. As result it was possible to identify the scrapping relationship with the presence of high FeO and MnO contents in the slag, during ladle furnace starting operations, along with stopper rod level variation in the tundish.
The continuous casting tundish is the last metallurgical reactor where molten metal flows before solidifying in the continuous casting mold. A tundish covering powder can be used for improving steel ...cleanliness; in this case it is named 'active tundish slag'. The objective of this work is to evaluate, in laboratory, the effect of three kinds of tundish covering powders on cleanliness for a SAE 1055 modified steel - a Ca-aluminate, a Ca-Mg-aluminate, and an Al-silicate powder, analysing their interaction with rice hull ash. The forementioned materials were molten on liquid steel, representing different kinds of tundish covering powders which are used in the steel industry: a Ca-Mg-aluminate, an Al-silicate, and a Ca-aluminate. Experiments were performed with and without a top layer of rice hull ash, simulating industrial conditions. Distribution, density, and mean diameter of inclusions were measured through automated inclusion analyses. Through computational thermodynamics it was possible to evaluate deviation from saturation (considering Al2 O3 and MgO from refractory) and slag viscosity. It can be stated that the Ca-aluminate tundish covering powder gives better results regarding cleanliness for the SAE 1055 modified steel under laboratory conditions.
O Pó de Aciaria Elétrica (PAE) é um resíduo sólido originado na fabricação de aços em Fornos Elétricos a Arco (FEA), classificado como resíduo perigoso pela ABNT NBR 10004- 2004. Isto porque ele ...contém metais nocivos ao meio ambiente (como chumbo e cádmio), embora seja constituído, em sua maior parte, pelos elementos ferro, zinco e oxigênio. Devido aos custos onerosos para disposição e por tratar-se de resíduo perigoso, a indústria procura pela possibilidade de retorno ao processo produtivo do aço. Uma das alternativas é a reintrodução na aciaria elétrica através de aglomerados autorredutores como parte da carga do FEA. Neste trabalho, são produzidas misturas autorredutoras contendo PAE e coque de petróleo, apresentando as correspondentes caracterizações químicas e físicas. Através de ensaios termogravimétricos é feita uma avaliação do comportamento destas misturas, mostrando a possibilidade do emprego desta técnica na aferição prática do teor ótimo de coque, em aglomerados. Além disto, foram produzidas pelotas autorredutoras através do uso de um disco laboratorial, sendo as pelotas submetidas a testes físicos e mecânicos, com uso de aglomerantes e também testes de autorredução em fornos mufla e em aparato experimental. Como resultados destes experimentos pode-se concluir que o cimento Portland ARI e a combinação de cal hidratada com cinza de casca de arroz possuem melhor resistência a compressão frente aos outros ligantes utilizados. O grau de metalização obtido para a maior parte das amostras não passou de 35%. A remoção de zinco foi de aproximadamente 85%, para temperatura de 1100 ºC, com 45 minutos e com 10% de coque de petróleo. Isto indica a possibilidade de enriquecimento da nova poeira gerada em zinco. Fato este que agrega valor para tratamento do resíduo em outros processos externos.
The Electric Arc Furnace Dust (EAFD) is a solid waste generated by electric steelmaking, in Electric Arc Furnaces (EAF), being considered a hazardous waste by the Environmental Protection Agency. That is because of its harmful metals, although it is composed, in majority, by elements iron, zinc and oxygen. Due to high costs involved for its disposal and because it is a hazardous waste, industry seek for the possibility of returning the EAFD back to the steelmaking process. One of the alternatives is by reintroduction via electric meltshop through self-reducing agglomerates as part of the furnace burden. In this work, self-reducing mixtures of EAFD and petroleum coke were produced, showing as result corresponding chemical and physical characterizations. Using thermogravimetric tests, an evaluation of the mixtures behavior was carried out, demonstrating the possibility of using this technique in a practical measurement of optimal content of coke, in agglomerates. Furthermore, selfreducing pellets were pelletized using a laboratorial disc, with these agglomerates being tested in physical and mechanical strength essays, with different binders employed and also selfreduction tests in vertical electric furnace and experimental apparatus. As part of the results it could be concluded cement and the combination between hydrated lime and rice husk ash achieved the best results, in compressive strength, comparing to other binders. The metallization degree for almost all samples achieved a maximum of 35%. Zinc removal, for temperatures around 1100 ºC, in an experiment of 45 minutes and using 10% of petroleum coke, was approximately 85%. It indicates the dust to be enriched with zinc. This fact adds value to the waste for treatment in other processes.