Definição de tecnologias para desaguamento de ultrafinos ricos de minério de ferro : uma aplicação na Vale Carajás - Pará - Brasil

Orsine, Noeber Maciel

January 2014

O minério de ferro produzido no complexo de Carajás traz consigo características mineralógicas que conferem um elevadíssimo teor de Fe em todas as suas frações granulométricas. Dessa forma, ao final da cadeia produtiva, tanto os produtos comerciais mais grosseiros quanto os finos contem cerca de 62% de Fe contido na sua composição. Importante destacar que em Carajás as fases no processamento desse minério são apenas para cominuição e classificação por tamanho. Não existem etapas de concentração e os produtos são diferenciados por suas respectivas curvas granulométricas: o “granulado” - mais grosseiro (> 13 mm), o “Sinter-Feed” (< 13 mm e > 0,5 mm) e o “pellet feed” (< 0,15 mm). Garantir a correta distribuição granulométrica da matéria prima é uma premissa de mercado. A ultima etapa da classificação é feita através de hidrociclones e gera um overflow ultrafino de altíssima superfície específica maior que 6.500 Blaine e com 45% até 95 % < 7 μm. E ainda possui um elevado teor de Fe - cerca de 62 %. Dessa forma os objetivos gerais dessa pesquisa buscaram a solução para essa oportunidade de recuperar e vender esses rejeitos. O estudo sugeriu através de ensaios com tecnologias capazes de desaguar os ultrafinos gerados para 9,00 % de umidade, que é o valor que permite a movimentação e o manuseio desses rejeitos, além de permitir sua incorporação na blendagem de produtos mais grossos. Desse modo, foram realizados experimentos em diversos laboratórios externos e em escala piloto na Usina de Carajás com amostras dos dois rejeitos ultrafinos das duas fases de hidrociclonagem: o natural e o moído. Ficou evidente que o equipamento tem de combinar necessariamente e de forma eficiente dois fatores essências ao desaguamento: elevadíssimas pressões e altas temperatura na operação desses ultrafinos. A produtividade atingida foi da ordem de 50 t/h x m² para o rejeito da hidrociclonagem do Sinter Feed e 40 t/h x m² para o rejeito dos hidrociclones da Moagem. / The Iron ore that is produced in Carajás mining complex brings mineralogical characteristics that give a very high Fe content in all its size fractions. Thus, at the end of the production chain both coarser and fine contains about 62% Fe contained in its composition. Importantly, in Carajás stages in the processing of this ore are for reduction and classification by size. There is thus no concentration steps and products are differentiated by their respective size distribution curves: the "grain" - coarser (> 13 mm), the "Sinter-Feed" (<13 mm and > 0.5 mm) and the "pellet feed" (<0.15 mm). Ensure proper particle size distribution of the raw material is a market premise. The last step of classification is made using hydrocyclones and generates an overflow ultrafine high specific surface area greater than 6.500 Blaine and with 45% to 95% <7 μm. And has a high Fe content - about 62%. The overall objectives of this research sought the solution to this opportunity to recover and sell these “tailings”. The study suggested by testing with technologies capable of flowing into the ultrathin generated to 9.00% of moisture, which is the value that allows movement and handling these wastes, and allows their incorporation into the blending of thicker products. Thus, experiments were carried out in several external laboratories and pilot-scale plant in the Carajás with samples of both ultrafine “tailings” of the two phases of hydrocycloning: the natural and the ground. It was evident that the equipment must necessarily match and two efficiently factors essences to dewatering: very high pressure and high temperature operation of these “tailings”. The productivity achieved was around 50 t/h x m² in reject of the Sinter Feed hydrocycloning and 40 t/h x m² to reject of the grinding hydrocyclones.

Minério de ferro

Rejeito de mineração

Filtração

Ensaios (Engenharia)

Mining

Iron ore

“Tailings”

Solid-liquid separation

Trials

Filtering

Efeito da basicidade e do teor de MgO no inchamento de pelotas de minério de ferro. / Effect of basicity and MgO content in the swelling of iron ore pellets.

Andrade, Roberto Silva de

24 November 2017

O inchamento de pelotas de minério de ferro, que pode chegar até 400%, é um assunto que desperta interesse da indústria metalúrgica por gerar diversos problemas durante processos de redução. Ele ocorre por dois motivos, a saber, a mudança da estrutura cristalina na transformação da hematita (Fe2O3) para a magnetita (Fe3O4) e o aparecimento de ferro no formato filamentar durante a última etapa de redução. Diversos fatores influenciam o comportamento das pelotas, como a basicidade binária (CaO/SiO2) e o teor de MgO. Foram realizados experimentos para avaliar o efeito destas duas variáveis em suas propriedades físicas, como resistência à compressão e porosidade, e no comportamento das pelotas durante a redução. Os teores de MgO foram de 0%, 1% e 5%, enquanto a basicidade foi de 0,61 a 1,5. Ao adicionar MgO, a porosidade e a redutibilidade aumentam, enquanto o inchamento e a resistência diminuem. Ao adicionar CaO, a porosidade cai por conta da formação de mais fase líquida durante a queima, há diminuição de inchamento. A redutibilidade aumenta até basicidade 1 e depois apresenta uma leve diminuição em basicidade 1,5. / Iron ore pellets swelling, which can reach up to 400%, is a subject that rises concern in metallurgical industry because of the problems it may cause during reduction processes. Several factors can change pellets behavior concerning swelling, such as binary basicity (CaO/SiO2) and the MgO content. Experiments were performed to evaluate the effect of these two variables in the physical properties of the pellets, such as compression strength and porosity, and in their behavior during reduction as well. MgO was added up to 5% and basicity varied in a range from 0.61 to 1.5. Addition of MgO increased porosity and reducibility, while swelling and strength decreased. Addition of CaO caused porosity to decrease because of the formation of more liquid slag during heat treatment. Is also decreased swelling. Reducibility rises when basicity reaches 1.0, but decreases with further increases in CaO content.

Ferro

Inchamento

Iron ore

Minérios

Pelletizing

Pelotização

Reduction

Resistência dos materiais

Swelling

Development of a geometallurgical framework for iron ores - A mineralogical approach to particle-based modeling / Utveckling av ett geometallurgiskt ramverk för järnmalmer - Ett mineralogiskt angreppssätt till partikelbaserad modellering.

Parian, Mehdi

January 2017

The demands for efficient utilization of ore bodies and proper risk management in the mining industry have resulted in a new cross-disciplinary subject called geometallurgy. Geometallurgy connects geological, mineral processing and subsequent downstream processing information together to provide a comprehensive model to be used in production planning and management. A geometallurgical program is an industrial application of geometallurgy. Various approaches that are employed in geometallurgical programs include the traditional way, which uses chemical elements, the proxy method, which applies small-scale tests, and the mineralogical approach using mineralogy or the combination of those. The mineralogical approach provides the most comprehensive and versatile way to treat geometallurgical data. Therefore it was selected as a basis for this study. For the mineralogical approach, quantitative mineralogical information is needed both for the deposit and the process. The geological model must describe the minerals present, give their chemical composition, report their mass proportions (modal composition) in the ore body and describe the ore texture. The process model must be capable of using mineralogical information provided by the geological model to forecast the metallurgical performance of different geological volumes and periods. A literature survey showed that areas, where more development is needed for using the mineralogical approach, are: 1) quick and inexpensive techniques for reliable modal analysis of the ore samples; 2) ore textural characterization of the ore to forecast the liberation distribution of the ore when crushed and ground; 3) unit operation models based on particle properties (at mineral liberation level) and 4) a system capable of handling all this information and transferring it to production model. This study focuses on developing tools in these areas. A number of methods for obtaining mineral grades were evaluated with a focus on geometallurgical applicability, precision, and trueness. A new technique developed called combined method uses both quantitative X-ray powder diffraction with Rietveld refinement and the Element-to-Mineral Conversion method. The method not only delivers the required turnover for geometallurgy but also overcomes the shortcomings if X-ray powder diffraction or Element-to-Mineral Conversion were used alone. Characterization of ore texture before and after breakage provides valuable insights about the fracture pattern in comminution, the population of particles for specific ore texture and their relation to parent ore texture. In the context of the mineralogical approach to geometallurgy, predicting the particle population from ore texture is a critical step to establish an interface between geology and mineral processing. A new method called Association Indicator Matrix developed to assess breakage pattern of ore texture and analyze mineral association. The results of ore texture and particle analysis were used to generate particle population from ore texture by applying particle size distribution and breakage frequencies. The outcome matches well with experimental data specifically for magnetite ore texture. In geometallurgy, process models can be classified based on in which level the ore, i.e. the feed stream to the processing plant and each unit operation, is defined and what information subsequent streams carry. The most comprehensive level of mineral processing models is the particle-based one which includes practically all necessary information on streams for modeling unit operations. Within this study, a particle-based unit operation model was built for wet low-intensity magnetic separation, and existing size classification and grinding models were evaluated to be used in particle level. A property-based model of magnetic beneficiation plant was created based on one of the LKAB operating plants in mineral and particle level and the results were compared. Two different feeds to the plant were used. The results revealed that in the particle level, the process model is more sensitive to changes in feed property than any other levels. Particle level is more capable for process optimization for different geometallurgical domains.

Geometallurgy

process simulation

breakage characterization

ore texture

iron ore

modal mineralogy

Mineral and Mine Engineering

Mineral- och gruvteknik

Desenvolvimento e aplicação de metodologia para estudos de simulação dinâmica na cadeia do minério de ferro. / Development and application methodology for dynamic simulation studies of the iron ore supply chain.

Cremonese, Dennis Travagini

07 February 2014

Este estudo propõe uma metodologia para a simulação dinâmica da cadeia de produção mineral. A metodologia proposta permite que modelos complexos sejam construídos rapidamente e com precisão, reduzindo os custos de estudos nas fases de projeto e possibilitando reduções mais expressivas nos custos de implantação e operação do empreendimento. A metodologia proposta abrange todas as etapas de estudo desde a formulação do problema a ser analisado até a implementação dos resultados e foi aplicada em um projeto, durante as fases de FEL 2 e 3 (Projeto Conceitual e Básico). O projeto estudado consiste da produção de produtos de minério de ferro de uma empresa de mineração em Corumbá/MS, incluindo lavra, beneficiamento e transporte do minério beneficiado por ferrovia até o porto de Santos/SP. São apresentadas as premissas, dados de entrada e conceitos para criação de um modelo que integre Pátio de Estocagem da Usina de Beneficiamento, Ferrovia e Porto, além dos dados de saídas do modelo necessários para avaliação e suas análises. Com base nos resultados obtidos foram identificados as ações que podem ser tomadas para o aumento da eficiência do trabalho de modelagem. A aplicação da metodologia proposta permitiu comprovar que um modelo integrado de simulação, envolvendo as diferentes atividades da cadeira de produção mineral, oferece uma visão global dos processos envolvidos e facilita a tomada de decisão. / This study proposes a methodology for dynamic simulation of the mineral supply chain. The proposed methodology allows complex models to be built quickly and accurately, reducing the costs of studies in the design phases and enabling more substantial reductions in the costs of implementation and operation of the enterprise. The proposed methodology covers all stages of study since the problem formulation to be analyzed until the results implementation and was applied in a project, during the phases of FEL 2 and 3 (Pre-Feasibility and Feasibility Study). The project studied consists of the production of iron ore products from a mining company in Corumbá/MS, including mining, beneficiation and transportation of the processed ore by rail to the port of Santos/SP. Assumptions, input data and concepts to create a model that integrates the Stockyard of the Beneficiation Plant, Rail and Port are presented, beyond the outputs data of the model necessary for the assessment and analysis. Based on the results obtained were identified actions that can be taken to increase the efficiency of modeling work. The application of the proposed methodology allowed to demonstrate that an integrated simulation model, involving different activities of the mineral supply chain, provides an overview of the involved process and facilitates decision making.

Cadeia do minério de ferro

Dynamic simulation

Integrated model

Iron ore supply chain

Modelo integrado

Simulação dinâmica

[en] PELLETIZING AND REDUCING OF MAGNETITE CONCENTRATE / [pt] PELOTIZAÇÃO E REDUÇÃO DE CONCENTRADO MAGNETÍTICO

EDUARDO SILVA MAIA

21 October 2011

[pt] A tendência mundial de aumento da quantidade de finos (sinter feed e pellet feed) nas lavras de minério de ferro tem elevado a importância dos processos de aglomeração, em especial a pelotização, que tem por característica produzir pelotas de excelente qualidade química e alta resistência mecânica, além de ser um processo menos poluente que a sinterização. Atualmente, as jazidas de minério de ferro em lavra no Brasil, exploram minérios predominantemente hematíticos (hematita e/ou itabirito). Apesar do país não possuir tradição na exploração de minérios magnetíticos, existem ocorrências destes que vêm despertando crescente interesse, sendo, contudo, necessário à adequação das etapas do beneficiamento mineral e dos parâmetros operacionais da pelotização. O presente trabalho, fruto de uma interação da empresa Metal Data S/A e o Grupo de Siderurgia do DEMa/PUC-Rio, trata do estudo da pelotização de um minério de ferro magnetítico, proveniente de uma jazida brasileira em fase de pesquisa mineral, com o objetivo de analisar sua viabilidade exploratória para produção de pelotas a serem utilizadas como matéria prima na indústria siderúrgica. Os procedimentos experimentais foram divididos em três etapas: tratamento do minério, pelotização e redução, buscando assim, definir uma rota de tratamento do minério e, posteriormente, a caracterização química, mecânica e metalúrgica das pelotas produzidas. Foram estudados três tipos de misturas para a pelotização, envolvendo oito diferentes concentrados. Os resultados indicaram que o minério magnetítico é passível de concentração e capaz de produzir um pellet feed de qualidade, utilizando rota de beneficiamento com operações unitárias típicas. Este material mostrou potencial para a formação de pelotas cruas em discos de laboratório e, após as operações de queima, produziu pelotas que apresentaram granulometria entre 9,5 e 16,0 mm, resistência à compressão de 126 a 339 kg/pelota, índice de tamboramento de 67,7 a 94,9 %, porosidades de 23,8 a 40,74%, grau de metalização de 30 a 75%, entre outras. / [en] The global increasing trend of producing iron ore fines (sinter feed and pellet feed) has also increased the importance of the agglomeration processes, in particular the pelletizing, which has as main characteristic to produce high quality pellets with excellent mechanical resistance, besides being a less polluting process than the sintering. Currently, Brazilian mines exploit mainly hematite deposits (hematite and / or itabirite ores). Although the country has no tradition in exploiting magnetite minerals, there is a growing interest trend in magnetite occurrences, although it might be necessary to adequate mineral processing and pelletizing operating parameters when using such ore. This work is a result of an interaction between the company Metal Data S/A and the Siderurgy Group of the DEMa/PUC-Rio and describes the pelletizing process using magnetite iron ore from a Brazilian deposit in exploration stage, in order to evaluate its suitability for exploratory pellet production to be used as feedstock in the steel industry. The experimental procedures were divided into three steps - ore processing, pelletizing and reduction, aiming to define the ore treatment route and chemical, mechanical and metallurgical characteristics of the produced pellets. Three types of mixtures for pelletizing were analysed, involving eight different concentrates. The results indicated that the magnetite ore is likely to concentrate and capable of producing a pellet feed with adequate quality, using a processing route with typical unit operations. It was observed that this materal has a potential for the formation of green pellets in the laboratory pelletizing disc and, after burning operations, produced pellets that had particle size between 9.5 and 16.0 mm, compression strength from 126 to 339 kg / pellet, tumble index from 67.7 to 94.9%, porosity from 23.8 to 40.74%, degree of metallization from 30 to 75%, among others.

[pt] REDUCAO

[en] REDUCTION

[pt] PELOTAS

[en] PELLETS

[pt] MINERIO DE FERRO

[en] IRON ORE

[pt] SIDERURGIA

[en] SIDERURGY

Mineral Reactions and Slag Formation During Reduction of Olivine Blast Furnace Pellets

Ryösä, Elin

January 2008

The present work focuses on mineral reactions and slag formation of LKAB olivine iron ore pellets (MPBO) subjected to reducing conditions in the LKAB experimental blast furnace (EBF). The emphasis is on olivine reactions with surrounding iron oxides. Many factors influence the olivine behaviour. The study was performed by use of micro methods; optical microscopy, micro probe analysis, micro Raman and Mössbuer spectroscopy and thremodynamic modeling. During manufacturing, in oxidising atmosphere at high temperature (1350°C), olivine alterations occur through slag formation and rim reactions with iron oxides and other additives. To be able to describe olivine behaviour in the rather complex blast furnace reduction process one has to consider factors such as reactions kinetics, reduction degree of iron oxides, vertical and horizontal position in the furnace and reactions with alkali. Samples were collected from the EBF both from in shaft probing during operation and from excavation following quenching of the EBF. The initial slag forming olivine consist of primary forsterite – (Mg1.9Fe0.1)SiO4 – with inclusions of hematite and an amorphous silica rich phase, a first corona with lamellae of magnesioferrite, olivine and orthopyroxene, a second corona of amorphous silica and magnesioferrite. During reduction in the upper shaft in the EBF (700-900°C) Fe3+ reduces to Fe2+. The amorphous silica in the second corona absorbs alkali, Al, Fe2+, Mg, and Ca and form glasses of varying compositions. The lamellae in the first corona will merge into a single phase olivine rim. With further reduction the glasses in the second corona will merge with the olivine rim forming an iron rich olivine rim and leaving the elements that do not fit into the olivine crystal lattice as small silicate glass inclusions. Diffusion of magnesium and iron between olivines and iron oxides increase with increasing temperature in the lower shaft of the EBF (750-1100°C). In the cohesive zone of the EBF (1100-1200°C) Fe2+ is not stable any longer and Fe2+ will be expelled from the olivine as metallic iron blebs, and the olivine will form a complex melt with a typical composition of alkali-Al2O3-MgO-SiO2. Alkali plays an important role in this final olivine consumption. The quench time for samples collected with probes and excavation are minutes respectively hours. A study of the quench rate’s effect on the phases showed no differences in the upper shaft. However, in the lower shaft wüstite separates into wüstite and magnetite when wüstite grows out of its stability field during slow cooling of excavated samples. There is also a higher alkali and aluminium deposition in the glass phases surrounding olivines in excavated pellets as a result of alkali and aluminium gas condensing on the burden in the EBF during cooling. Coating applied to olivine pellets was studied in the EBF with the aim to investigate its behaviour, particularly its ability to capture alkali. The coating materials were kaolinite, bauxite, olivine and limestone. No significant reactions were observed in the upper shaft. In the lower shaft a majority of the phases were amorphous and reflecting the original coating compositions. Deposition from the EBF gas phase occurs and kalsilite (KAlSiO4) is found in all samples; coating used for binding alkali is redundant from a quality perspective.

olivine

iron ore pellets

blast furnace

reduction

alkali

coating

slag formation

Earth sciences

Geovetenskap

Heat Treatment Of Iron Ore Agglomerates With Microwave Energy

Cirpar, Cigdem

01 February 2005

Pelletizing is a size enlargement technique employed to process fine-grained iron-bearing concentrates and powder ores. Mechanical strength of fired pellets is important for handling. When the pellets undergo metallurgical processing, their mechanical strength is a measure of their resistance to degradation by breakage due to impacts and abrasion to which they are exposed in the upper part of the blast furnace. In this study, heat treatment of iron ore agglomerates with microwave energy is investigated. First drying and then heat hardening tests were performed. Two main properties of pellets were taken into consideration: percent moisture and magnetite content for the dried pellets and compressive strength and also magnetite content for the fired pellets. The tests were conducted with different particle sized pellets, in different durations. In order to increase the oxidation rate in heat hardening tests, Na2O2 is also added in different percentages. The results of the study showed that, magnetite pellets can indeed be dried and heated with microwave energy. However, the attained compressive strength and v the oxidation of the fired pellets were not sufficient as compared to pellets produced by conventional heating

TN Mining Engineering, Metallurgy. 1-997

[en] DEVELOPMENT OF A TECHNIQUE TO PERMIT THE USE OF IRON ORES BEARING HIGH PHOSPHOR CONTENT AIMING AT COMPETITIVENESS FOR THE DIRECT REDUCTION MARKET / [pt] COMPORTAMENTO DO FÓSFORO EM ESCÓRIAS SINTÉTICAS E NO PELLET FEED PARA REDUÇÃO DIRETA

EDELINK EFRAIN TINOCO FALERO

08 March 2012

[pt] As pelotas de minério de ferro têm suas propriedades fortemente dependentes da natureza das fases escorificadas que se formam durante o processo de queima. Neste trabalho são apresentados os resultados de uma das pesquisas que compõem o projeto cooperativo entre a Samarco e o Grupo de Siderurgia do DEMa / PUC-Rio, envolvendo a possibilidade de utilização de minérios de ferro portadores de fósforo (pellet feed), na produção de pelotas para redução direta. Com este objetivo foram geradas amostras de escórias sintéticas de mesma composição que as das pelotas RD comerciais, as quais foram submetidas a condições experimentais análogas as do processo industrial. Inicialmente a ciclos térmicos em forno tipo pot-grate e, posteriormente, em escala laboratorial, usando forno de mufla, seguido de etapas de resfriamento em velocidades distintas. Foi possível então constatar que velocidades mais altas de resfriamento, aplicadas na etapa final dos ciclos térmicos, produziam escórias sintéticas sensivelmente amorfas, o que levou a conclusão que as fases escorificadas das pelotas RD também se apresentariam como estruturas não cristalinas. Finalmente, por meio de teste especificamente desenvolvido para a análise seletiva de fósforo em fases oxídicas, conseguiu-se obter uma maior eficiencia na mensuração deste elemento quando dissolvido em escórias amorfas, o que viabilizou a medida das quantidades de fósforo que efetivamente migraram para as mesmas, quando se submetiam as amostras de pellet feed a diferentes temperaturas, variados tempos de residencia e distintas basicidades. Por fim, foi possivel concluir ser o incremento de basicidade do pellet feed um fator de significativa melhoria para o transporte e a dissolução do fósforo pelas escórias, em particular quando submetidos a temperaturas superiores a 900 graus Celsius. / [en] Iron ore pellets have their properties strongly dependent on the nature of the phases present in the slags formed during pelletization. In this work are presented the first results of a research program involving the utilization of phosphorous bearing iron ores in the production of DR pellets (Direct Reduction pellets). Aiming at this, synthetic slags, produced with same composition of the gangue of a commercial DR pellet, were submitted to operational conditions similar to those of the industrial pelletizing process, but performed in a pot-grate reactor and in a laboratory furnace. The obtained slags samples were cooled at different rates, permitting to observe that at high cooling rates the slags obtained were amorphous, suggesting the occurrence of a similar amorphous structure for the slags present in the DR pellets. Finally, tests developed for a selective analysis of phosphorous in oxide phases, showed better efficiency when applied to amorphous slags than in crystalline ones. Further, the behavior of the phosphor dissolution in the obtained slags during the heating of pellet feed samples was evaluated. In this phase different temperatures, resident times and basicities were tested using a laboratory furnace. The results indicated improvements in the phosphor dissolution with the basicity increase when temperatures above 900 Celsius degrees were applied.

[pt] REDUCAO DIRETA

[en] DIRECT REDUCTION

[pt] PELOTAS

[en] PELLETS

[pt] ESCORIA

[en] SLAG

[pt] MINERIO DE FERRO

[en] IRON ORE

Metal Mining's Environmental Pressures: A Review and Updated Estimates on CO2 Emissions, Water Use, and Land Requirements

Tost, Michael, Bayer, Benjamin, Hitch, Michael, Lutter, Franz Stephan, Moser, Peter, Feiel, Susanne

January 2018

The significant increase in metal mining and the inevitability of the continuation of this trend suggests that environmental pressures, as well as related impacts, have become an issue of global relevance. Yet the scale of the impact remains, to a large extent, unknown. This paper examines the mining sector's demands on CO2 emissions, water use, as well as demands on land use focusing on four principal metals: iron, aluminium (i.e., bauxite ore), copper, and gold. These materials represent a large proportion of all metallic materials mined in terms of crude tonnage and economic value. This paper examines how the main providers of mining data, the United Nations, government sources of some main metal producing and consuming countries, the scientific literature, and company reports report environmental pressures in these three areas. The authors conclude that, in the global context, the pressure brought about by metal mining is relatively low. The data on this subject are still very limited and there are significant gaps in consistency on criteria such as boundary descriptions, input parameter definitions, and allocation method descriptions as well as a lack of commodity and/or site specific reporting of environmental data at a company level.

Definição de tecnologias para desaguamento de ultrafinos ricos de minério de ferro : uma aplicação na Vale Carajás - Pará - Brasil

Orsine, Noeber Maciel

January 2014

O minério de ferro produzido no complexo de Carajás traz consigo características mineralógicas que conferem um elevadíssimo teor de Fe em todas as suas frações granulométricas. Dessa forma, ao final da cadeia produtiva, tanto os produtos comerciais mais grosseiros quanto os finos contem cerca de 62% de Fe contido na sua composição. Importante destacar que em Carajás as fases no processamento desse minério são apenas para cominuição e classificação por tamanho. Não existem etapas de concentração e os produtos são diferenciados por suas respectivas curvas granulométricas: o “granulado” - mais grosseiro (> 13 mm), o “Sinter-Feed” (< 13 mm e > 0,5 mm) e o “pellet feed” (< 0,15 mm). Garantir a correta distribuição granulométrica da matéria prima é uma premissa de mercado. A ultima etapa da classificação é feita através de hidrociclones e gera um overflow ultrafino de altíssima superfície específica maior que 6.500 Blaine e com 45% até 95 % < 7 μm. E ainda possui um elevado teor de Fe - cerca de 62 %. Dessa forma os objetivos gerais dessa pesquisa buscaram a solução para essa oportunidade de recuperar e vender esses rejeitos. O estudo sugeriu através de ensaios com tecnologias capazes de desaguar os ultrafinos gerados para 9,00 % de umidade, que é o valor que permite a movimentação e o manuseio desses rejeitos, além de permitir sua incorporação na blendagem de produtos mais grossos. Desse modo, foram realizados experimentos em diversos laboratórios externos e em escala piloto na Usina de Carajás com amostras dos dois rejeitos ultrafinos das duas fases de hidrociclonagem: o natural e o moído. Ficou evidente que o equipamento tem de combinar necessariamente e de forma eficiente dois fatores essências ao desaguamento: elevadíssimas pressões e altas temperatura na operação desses ultrafinos. A produtividade atingida foi da ordem de 50 t/h x m² para o rejeito da hidrociclonagem do Sinter Feed e 40 t/h x m² para o rejeito dos hidrociclones da Moagem. / The Iron ore that is produced in Carajás mining complex brings mineralogical characteristics that give a very high Fe content in all its size fractions. Thus, at the end of the production chain both coarser and fine contains about 62% Fe contained in its composition. Importantly, in Carajás stages in the processing of this ore are for reduction and classification by size. There is thus no concentration steps and products are differentiated by their respective size distribution curves: the "grain" - coarser (> 13 mm), the "Sinter-Feed" (<13 mm and > 0.5 mm) and the "pellet feed" (<0.15 mm). Ensure proper particle size distribution of the raw material is a market premise. The last step of classification is made using hydrocyclones and generates an overflow ultrafine high specific surface area greater than 6.500 Blaine and with 45% to 95% <7 μm. And has a high Fe content - about 62%. The overall objectives of this research sought the solution to this opportunity to recover and sell these “tailings”. The study suggested by testing with technologies capable of flowing into the ultrathin generated to 9.00% of moisture, which is the value that allows movement and handling these wastes, and allows their incorporation into the blending of thicker products. Thus, experiments were carried out in several external laboratories and pilot-scale plant in the Carajás with samples of both ultrafine “tailings” of the two phases of hydrocycloning: the natural and the ground. It was evident that the equipment must necessarily match and two efficiently factors essences to dewatering: very high pressure and high temperature operation of these “tailings”. The productivity achieved was around 50 t/h x m² in reject of the Sinter Feed hydrocycloning and 40 t/h x m² to reject of the grinding hydrocyclones.

Minério de ferro

Rejeito de mineração

Filtração

Ensaios (Engenharia)

Mining

Iron ore

“Tailings”

Solid-liquid separation

Trials

Filtering