Recovery Of Zinc And Lead From Cinkur Leach Residues By Using Hydrometallurgical Techniques

Rusen, Aydin

01 August 2007

In this thesis, it was aimed to select and propose a feasible method, or series of methods, for the recovery of zinc (Zn) and lead (Pb) that are present in disposed &Ccedil / iNKUR leach residues having 12.43 % Zn, 15.51 % Pb and 6.27 % Fe. Initially, physical, chemical and mineralogical characterizations of the leach residues were done. Results of these analyses showed that lead was present as lead sulfate (PbSO4), and zinc was present as zinc sulfate heptahydrate (ZnSO4.7H2O), zinc ferrite (ZnFe2O4) and zinc silicate (2ZnO.SiO2) in the leach residues. Initially, water leaching experiments were carried out to determine water soluble amount of blended leach residue, and the maximum zinc recovery was obtained as 18 %. After these trials, sulphuric acid and brine leaching were used to recover zinc and lead, respectively. Firstly, due to the insufficient recovery in water leaching trials acid leaching experiments were done for zinc recovery and the parameters studied were acid concentration, reaction duration, leaching temperature and solid-liquid ratio (pulp density). About 72 % Zn was recovered after hot acid leaching by using 150 g/l H2SO4 at 95 oC in 2 hours with a pulp density of 200 g/l. For lead recovery brine leaching experiments were done with the secondary leach residue obtained after H2SO4 leaching. In brine leaching experiments, NaCl concentration, pulp density (solid/liquid ratio), reaction duration and leaching temperature were chosen as variables. Effect of HCl addition was also investigated. In brine leaching while lead recoveries up to 98 % could be attained at a low pulp density in laboratory scale, the maximum recovery obtained was 84.9 % at a high pulp density (200 g/l) with 300 g/l NaCl concentration in 10 minutes at 95 oC.

TN Metallurgy 600-799

Avaliação microestrutural, cinética e mecânica do comportamento de pelotas auto-redutoras a base de resíduos de aciaria elétrica contendo zinco do processo Waelz. / Microstructural evaluation, kinetic and mechanical behavior of self reducing pellet electric steelmaking waste base containing zinc by Waelz process.

Hernández Buitrago, Leidy Julieth

02 April 2018

Durante a produção do aço a partir da fusão de sucatas em fornos elétricos a arco é gerado entre 10 e 20 kg de resíduos por cada tonelada de aço fundido constituídos por fumos e poeiras contendo óxidos principalmente de ferro, zinco, cálcio e chumbo, tornando-os altamente perigosos e tóxicos. Na procura de uma solução para mitigar problemas de descarte desses resíduos, propõe-se a aglomeração da poeira de aciaria elétrica (PAE) na forma de pelotas auto-redutoras. Essas últimas, são tratadas termicamente pelo processo Waelz o qual consiste em um forno rotativo, alimentado pelas pelotas, e que recupera o zinco por meio de reações metalúrgicas de redução e oxidação. No presente trabalho avaliou-se o comportamento cinético e mecânico bem como as mudanças microestruturais, através do planejamento fatorial fracionário de experimentos tipo 3III(4-2), variando aglomerante, redutor, temperatura e basicidade binária. As técnicas empregadas para caracterização foram: MEV, EDS, DRX, FRX, DTA-TG, análise C-N-H e análise granulométrica a laser. A PAE estudada apresenta 37, 50 % de ferro na forma de hematita e 19, 40 % de zinco na forma de zincita. A maior parte das partículas apresentaram uma morfologia esférica com tamanho aproximado de 1 ?m. Através do método de tempo reduzido foram testados os modelos: (i) modelo de reação química de interface-simetria esférica, (ii) modelo exponencial de reação contínua e (ii) modelo do núcleo não reagido; resultando em um comportamento cinético com a combinação dos dois primeiros modelos. Entre 800 e 950 °C, foi detectada a formação de agulhas de óxido de zinco com impurezas de cloretos e chumbo. Os estudos do comportamento mecânico, após os tratamentos térmicos, apontaram para todas as temperaturas, um melhor comportamento no caso das pelotas aglomeradas com xarope de glicose e Ca(OH)2. / Steel production from scrap melting in electric arc furnaces, generates about 10 to 20 kg of waste per metric ton of molten steel, which are composed by fumes and dust containing mainly oxides of iron, zinc, calcium and lead. Thus, these residues are highly dangerous and toxic. To find ecofriendly solutions and mitigate problems of the solid waste, it was proposed to agglomerate electric steel dust (PAE) in the form of self-reducing pellets. The latter are thermally treated by the Waelz process, which consists of a rotary kiln fed by the pellets, recovering the zinc by means of reduction and oxidation metallurgical reactions. In this study, kinetic and mechanical behavior, as well as microstructural changes, were evaluated by fractional factorial design of type 3III experiments (4-2), varying: binder, reducer, temperature and binary basicity. Chemical and microstructural characterization were performed using: Scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), X-ray diffraction XRD, X-ray fluorescence spectrometry (FRX), differential thermal analysis/thermogravimetric (DTA/TG), elemental analysis C-N-H and laser granulometric analysis. The PAE studied presented 37. 50 % of iron in the form of hematite and 19. 40 % of zinc in the form of zincite. Most of the particles showed a spherical morphology of ~1 ?m in size. Using the time-reduced method, the following models were tested: (i) spherical interface-symmetry reaction model; (ii) exponential continuous reaction model; and (ii) unreacted core model. The results obtained showed a kinetic behavior with the combination of the first two models. At 800 and 950 °C the formation of zinc oxide needles was observed, in which was detected chloride and lead impurities. Mechanical behavior studies after the heat treatments showed that the pellets agglomerated with glucose syrup and Ca(OH)2 presented the best behavior at all temperatures.

EAF dust agglomeration

Impactos ambientais

Metalurgia ferrosa

Pelotas auto-redutoras

Recovery of zinc

Resíduos (Tratamento)

Self-reducing pellets

Treatment of steelmaking waste

Waelz process

Zinco (Reciclagem)

Avaliação microestrutural, cinética e mecânica do comportamento de pelotas auto-redutoras a base de resíduos de aciaria elétrica contendo zinco do processo Waelz. / Microstructural evaluation, kinetic and mechanical behavior of self reducing pellet electric steelmaking waste base containing zinc by Waelz process.

Leidy Julieth Hernández Buitrago

02 April 2018

Durante a produção do aço a partir da fusão de sucatas em fornos elétricos a arco é gerado entre 10 e 20 kg de resíduos por cada tonelada de aço fundido constituídos por fumos e poeiras contendo óxidos principalmente de ferro, zinco, cálcio e chumbo, tornando-os altamente perigosos e tóxicos. Na procura de uma solução para mitigar problemas de descarte desses resíduos, propõe-se a aglomeração da poeira de aciaria elétrica (PAE) na forma de pelotas auto-redutoras. Essas últimas, são tratadas termicamente pelo processo Waelz o qual consiste em um forno rotativo, alimentado pelas pelotas, e que recupera o zinco por meio de reações metalúrgicas de redução e oxidação. No presente trabalho avaliou-se o comportamento cinético e mecânico bem como as mudanças microestruturais, através do planejamento fatorial fracionário de experimentos tipo 3III(4-2), variando aglomerante, redutor, temperatura e basicidade binária. As técnicas empregadas para caracterização foram: MEV, EDS, DRX, FRX, DTA-TG, análise C-N-H e análise granulométrica a laser. A PAE estudada apresenta 37, 50 % de ferro na forma de hematita e 19, 40 % de zinco na forma de zincita. A maior parte das partículas apresentaram uma morfologia esférica com tamanho aproximado de 1 ?m. Através do método de tempo reduzido foram testados os modelos: (i) modelo de reação química de interface-simetria esférica, (ii) modelo exponencial de reação contínua e (ii) modelo do núcleo não reagido; resultando em um comportamento cinético com a combinação dos dois primeiros modelos. Entre 800 e 950 °C, foi detectada a formação de agulhas de óxido de zinco com impurezas de cloretos e chumbo. Os estudos do comportamento mecânico, após os tratamentos térmicos, apontaram para todas as temperaturas, um melhor comportamento no caso das pelotas aglomeradas com xarope de glicose e Ca(OH)2. / Steel production from scrap melting in electric arc furnaces, generates about 10 to 20 kg of waste per metric ton of molten steel, which are composed by fumes and dust containing mainly oxides of iron, zinc, calcium and lead. Thus, these residues are highly dangerous and toxic. To find ecofriendly solutions and mitigate problems of the solid waste, it was proposed to agglomerate electric steel dust (PAE) in the form of self-reducing pellets. The latter are thermally treated by the Waelz process, which consists of a rotary kiln fed by the pellets, recovering the zinc by means of reduction and oxidation metallurgical reactions. In this study, kinetic and mechanical behavior, as well as microstructural changes, were evaluated by fractional factorial design of type 3III experiments (4-2), varying: binder, reducer, temperature and binary basicity. Chemical and microstructural characterization were performed using: Scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), X-ray diffraction XRD, X-ray fluorescence spectrometry (FRX), differential thermal analysis/thermogravimetric (DTA/TG), elemental analysis C-N-H and laser granulometric analysis. The PAE studied presented 37. 50 % of iron in the form of hematite and 19. 40 % of zinc in the form of zincite. Most of the particles showed a spherical morphology of ~1 ?m in size. Using the time-reduced method, the following models were tested: (i) spherical interface-symmetry reaction model; (ii) exponential continuous reaction model; and (ii) unreacted core model. The results obtained showed a kinetic behavior with the combination of the first two models. At 800 and 950 °C the formation of zinc oxide needles was observed, in which was detected chloride and lead impurities. Mechanical behavior studies after the heat treatments showed that the pellets agglomerated with glucose syrup and Ca(OH)2 presented the best behavior at all temperatures.

Impactos ambientais

Metalurgia ferrosa

Pelotas auto-redutoras

Resíduos (Tratamento)

Zinco (Reciclagem)

EAF dust agglomeration

Recovery of zinc

Self-reducing pellets

Treatment of steelmaking waste

Waelz process