Récupération de la chaleur fatale : application aux fours rotatifs / Heat recovery exchanger applied to the rotary kiln equipment

Piton, Maxime

06 November 2015

Ce travail de thèse part d’un constat : d’importantes pertes thermiques sont observées lors de l’élaboration des matériaux du génie civil. Motivés par l’ajout d’une double enveloppe, les travaux contenus dans ce manuscrit visent à caractériser un échangeur de chaleur appliqué en paroi des fours rotatifs. Tout d’abord, un modèle intégré est développé, puis validé sur une centrale d’enrobage dont la paroi intérieure du four est munie de releveurs nécessaires au mélange des matériaux. Leur distribution dans la section transversale est estimée à partir d’une loi de déchargement granulaire. Les expérimentations numériques montrent que les transferts Gaz / Solide et Solide / Paroi dominent, ce dernier phénomène limitant les performances globales du procédé. L’ajout de l’échangeur sur paroi mobile est quant à lui exploré sur un banc d’essai instrumenté de type rotor-stator, avec entrée tangentielle. Développant un écoulement de type Taylor-Couette-Poiseuille, les transferts thermiques pariétaux sont caractérisés expérimentalement. Les résultats sont sans équivoque dans la gamme de nombres de Reynolds imposés : la contribution du mouvement axial surpasse le mouvement rotationnel turbulent. Une corrélation adimensionnelle basée sur le nombre de Nusselt est proposée afin d’estimer numériquement l’effet de l’échangeur sur les profils de température internes dans le four. Enfin, les structures tourbillonnaires de l’écoulement dans l’espace annulaire sont étudiées à partir d’un code de mécanique des fluides numériques utilisant la Simulation aux Grandes Echelles. Les simulations permettent de décrire les cellules contrarotatives au sein de la couche limite turbulente dont l’amplitude et la fréquence de passages sont reliées aux paramètres de fonctionnement de l’échangeur (débit axial et vitesse de rotation du four). / This work results on a finding: the heat loss from rotary kiln represents a significant energy amount during materials processing in civil engineering domain. Motivated by traditional energy recovery methods from heat exchanger, this thesis is aimed at providing their rigorous thermodynamic diagnostics. Firstly, a thermal-granular model is developed, and then validated in asphalt plant whose the rotary kiln is composed of flights to ensure the materials mixing. Their cross-section distribution is calculated from a granular discharge law. The numerical experiments showed an increase of heat transfer phenomena between gases and solids, and those between the solids and the wall, this latter phenomenon limiting the process performances. Heat recovery exchanger applied to the rotary kiln is studied from a semi-industrial pilot based on a rotor stator configuration including a tangential inlet. Developing a Taylor-Couette-Poiseuille flow, the heat transfer results are undoubted in the range of the studied Reynolds numbers: the axial motion contribution is larger than the rotational turbulent motion. A dimension less criterion is proposed in order to be applied to the aforementioned integrated model including the heat exchanger applied to the rotary kiln, its effect being assessed upon the internal thermalprofiles. Finally, the vortices flow structure within the annular gap exchanger is studied from Large Eddy simulation. The amplitude and frequency passage of the contrarotatives cells located in the turbulent boundary layer are connected to the process parameters (the axial flowrate and the kiln shell rotation).

Four rotatif

Enrobé bitumineux

Transfert thermique

Taylor-Couette-Poiseuille

Turbulence

SGS

Rotary kiln

Hot Mix Asphalt

Heat transfer

Taylor-Couette-Poiseuille

Turbulence

LES

Energetické využití komunálního odpadu / Recovery of Energy from Municipal Wastes

Šíma, Kamil

January 2010

The topic of the diplome thesis is draft of the waste-to-energy plant for municipal waste with cogeneration of heat. Basic specification of project: Waste-to-Energy plant is facilitated by two rotary kilns of type operating in parallel. Further flue gas leaving the post-combustor enters a multicyclone unit to separate substatial portion of fly-ash. Heat of flue gas at the temperature of 1000°C generates superheated steam in a Heat Recovery Steam Generator (HRSG). Dry sorption process is appllied for flue gas treatment. Specifically sodium bi-carbonate is used for it. Products of reactions and remnants of dust are separated by a baghouse. Superheated steam, generated by two HRSG, presents the inlet stream of a condensing steam turbine with steam extraction. The diploma thesis contains calculation of major devices and basic economical and financial statement of project.

Entwicklung einer Steuerungsstrategie für die biologische Abfallbehandlung im dynamischen Reaktor

Bartha, Béla Kolos

18 January 2008

Im Mittelpunkt der Arbeit steht die prozess- und steuerungstechnische Untersuchung der biologischen Trocknung von Restabfällen im dynamischen Reaktor. Die gezielte Kombination von biologischen und mechanischen Prozessen innerhalb eines Reaktors führt zu Eigenschaften des Outputmaterials, die die prinzipielle Überlegenheit des dynamischen Reaktors hinsichtlich Prozessbeeinflussbarkeit und Produktqualität deutlich belegen. Die vorgestellte Steuerungslösung besteht aus einem Modul zur Klassensteuerung, der in eine übergeordnete Ablaufsteuerung eingebettet wurde. Diesem Aufbau liegt die Feststellung zu Grunde, dass beim diskontinuierlich geführten Prozess die Eigenschaften des Reaktor-Abfall-Systems von Charge zu Charge sehr unterschiedlich ausfallen können. Mit fortschreitender Prozesszeit können bestimmte Eigenschaften, im konkreten Fall Wassergehalt und Aktivität des Materials aus dem Prozessverlauf selbst bestimmt werden. Voraussetzung dazu ist die Schaffung von vergleichbaren Prozessbedingungen durch eine vorgegebene Reihenfolge von Handlungen zu Beginn des Prozesses. Ab einem bestimmten Informationsstand kann die bis dahin schematische in eine automatische Prozessführung überführt werden. In dieser werden an die aktuelle Prozesssituation angepasste Handlungen ausgeführt.

info:eu-repo/classification/ddc/620

ddc:620

Estudo da redução carbotérmica de minérios de ferro na forma de pelotas ou misturas autorredutoras em forno rotativo. / Study of carbothermic reduction of iron ore in the form of self-reducing pellets or mixtures in rotary kiln.

Nogueira, Alberto Eloy Anduze

31 August 2010

A finalidade deste trabalho é estudar a redução carbotérmica de minério hematítico com misturas e pelotas autorredutoras em um forno rotativo experimental. Trabalhou-se com duas temperaturas, a 1673 e 1773 K (1400 a 1500 °C), em fluxo de argônio de 1Nl/min, em um forno rotativo experimental aquecido por resistências, com uma rotação fixa de 5 rpm. Foram realizadas diversas experiências, alterando variáveis como a temperatura, composição e quantidade da escória, tipo de redutor, e tipo de conformação. Foi estudado o tempo de residência das pelotas e misturas autorredutoras dentro do forno e sua interrelação com a inclinação do mesmo. Mediu-se a resistência a compressão de diferentes composições de pelotas. Foi analisada a fração de redução atingida nas experiências com ajuda de um método indireto proposto neste trabalho, atingindo-se frações de redução acima de 98%. Especial atenção foi dada para os casos limites estudados, o primeiro com uma mistura autorredutora de 81% de minério hematítico de baixo teor, 19% de coque de petróleo,+10% cimento ARI, processada a 1773 K (1500 °C) com 33% de escória final, a qual, apesar da grande quantidade de escória, atingiu uma fração de redução de 98,7%; e o segundo, para uma mistura autorredutora de 43,5% de minério hematítico de baixo teor, 56,5% de pó de serragem, processada a 1773 K (1500 °C), a qual atingiu uma fração de redução de 99,2%, provando, com as ressalvas cabíveis, a factibilidade de reduzir diretamente com pó de serragem. Com base nas observações experimentais sugeriram-se modelos do processo de redução-fusão tanto das misturas como das pelotas autorredutoras no forno rotativo. Analisaram-se a composição da escória e a composição da fase metálica obtida. Para comparar o grau de coalescimento entre as amostras, foram levantadas as análises granulométricas de cada uma delas, comparando-se as porcentagens em massa dos nódulos de ferro-carbono com diâmetro superior a 7,93 mm. Atenção especial foi dada ao método de desagregação do produto; pela ausência de normas técnicas especificas para processos autorredutores, foi empregada uma adaptação do método de desagregação por tambor (ASTM E279-95), e validada por moagem manual. Estudou-se o efeito das variáveis: temperatura de processamento, temperatura liquidus da escória, da quantidade de escória de alta temperatura liquidus, da quantidade de voláteis do redutor, da quantidade do redutor, e da ausência de conformação. Entre os resultados destas experiências tem-se que a maior temperatura de processamento leva a maior grau de coalescimento. Na medida em que a escória do sistema não se liquefaz, o processo de coalescimento é prejudicado. Na medida em que a quantidade de escória com alta temperatura liquidus aumenta, o grau de coalescimento decresce. Ao se aumentar a quantidade do redutor acima do necessário para a correta redução, carburação e colaescimento, prejudica-se o processo de formação dos nódulos de ferro-carbono. Ao se comparar o grau de coalescimento obtido entre as misturas e as pelotas autorredutoras, temse que o desempenho das misturas autorredutoras é superior. Para aclarar o efeito da temperatura liquidus da escória no processo de carburação e coalescimento, foram realizadas experiências paralelas para estudar como a temperatura liquidus da escória e a ausência do FeO afetava o coalescimento. Ao estudar o transporte de carbono pelas escórias sem e com a presença de um óxido redutível, tem-se que o transporte do óxido de ferro na escória sem agitação é um fenômeno difusivo. / The purpose of this work is to study the carbothermal reduction of hematite ore as self-reducing mixtures or pellets in an experimental rotary kiln. Two different temperatures were employed, 1673 and 1773 K (1400-1500 ° C) in an experimental rotary kiln heated by resistors, with a fixed rotation of 5 rpm and under an argon flow of 1Nl/min. Several experiments were performed by changing variables such as temperature, composition and quantity of slag, type of carbonaceous material, and type of conformation. The residence time inside the furnace and its interrelation with the slope of the kiln containing self-reducing pellets or mixtures was studied. It was measured the compressive strength of pellets of different compositions. It has been analyzed the fractional reduction achieved in the experiments with the help of an indirect method proposed in this work, reaching fractional reduction above 98%. Special attention was given to some cases, the first one with a self-reducing mixture of 81% low grade ore, 19% petroleum coke, ARI +10%, processed to 1773 K (1500 ° C) with 33% final slag, which despite the large amount of slag reached a fractional reduction of 98.7%, and the second for a self-reducing mixture of 43.5% low-grade ore, 56.5% of sawdust processed to 1773 K (1500 ° C) which reached a fractional reduction of 99.2%, proving, with reasonable exceptions, the feasibility of reducing directly with sawdust. Based on experimental observations, process models of both the reduction-melting of self-reducing mixtures and pellets in the rotary kiln were proposed. The composition of slag and composition of the metallic phase obtained were analyzed. To compare the degree of coalescence between the samples, particle size analysis of each one was performed, comparing the percentages by weight of iron-carbon nuggets with a diameter greater than 7.93 mm. Regarding the method of disintegration of the product, due to the lack of technical standards for specific self-reducing processes, the drum method (ASTM E279-95) was adapted and validated by manual grinding. It was studied the effect of the following parameters: processing temperature, slag liquidus temperature, the amount of high liquidus temperature slag, amount of volatile matter of the reducing agent, the amount of reducing agent, and the absence of conformation. These experiments have shown that the higher the processing temperature, the greater the degree of coalescence, and also that as long as the slag does not melt, the coalescence process is impaired. As the amount of slag with high liquidus temperature increases, the degree of coalescence decreases. Increasing the amount of carbonaceous material above to that necessary to reduction and carburization undermines the process of formation of iron-carbon nuggets. When comparing the degree of coalescence obtained between the self-reducing mixtures and pellets, it has been shown that the performance of self-reducing mixtures is superior. To clarify the effect of the slag liquidus temperature in the carburization and coarsening process, experiments were conducted to study how the liquidus temperature of the slag and the absence of FeO affected the coarsening. By studying the transport of carbon in slags with and without the presence of a reducible oxide, it has been shown that the transport of iron oxide in the slag without agitation is a diffusive phenomenon.

Autorredução

Carbothermic reduction

Fornos rotativos

Iron ore

Iron-carbon nuggets

Minério de ferro

Misturas autorredutoras

Nódulos de ferrocarbono

Pelotas autorredutoras

Redução carbotérmica

Rotary kiln

Self-reducing mixtures

Self-reducing pellets

Self-reduction

Modélisation de l'apport d'énergie par combustibles alternatifs dans les fours tournants de production de ciment / Modeling of the energy input by alternative fuels in cement rotary kiln

Mungyeko Bisulandu, Baby-Jean Robert

06 March 2018

En raison de l'épuisement des combustibles fossiles et en raison de son coût croissant, les déchets ont été utilisés comme combustibles alternatifs dans les fours rotatifs à ciment pendant plusieurs années. Afin de répondre aux exigences de protection de l'environnement et de qualité du produit final, il est nécessaire de comprendre et de quantifier les différents processus intervenant dans le four. Dans le cadre de cette thèse, nous nous sommes intéressés à la substitution partielle des déchets (pneus usés et Refuse Derived Fuel « RDF ») et biomasse (résidus d’agriculture) dans les fours tournants de production de ciment à un taux de 50 % d’apport énergétique. Le présent projet de thèse a été financé par la République Démocratique Congo, porté par l’Université Kongo (UK), dans le cadre du renfoncement des capacités des universités congolaises. Les travaux de recherche ont été réalisés au sein du Laboratoire de Thermique, Energétique et Procédés (LaTEP) de l’Ecole Nationale Supérieure en Génie de Technologies Industrielles (ENSGTI)/Université de Pau et des Pays de l’Adour (France), dans le but d’étudier et de comprendre les phénomènes thermochimiques se déroulant dans les fours tournants de production de ciments, dans le cas de substitution partielle des combustibles fossiles par des combustibles alternatifs. Pour cela, un modèle mathématique à deux sous-modèles a été établi : - Le modèle monodimensionnel stationnaire du lit de solides et de l’enveloppe du four, caractérisé dans sa première partie par le mélange de la farine de ciment, de déchets et/ou biomasse, et de gaz, et alors que dans sa deuxième partie par les échanges thermiques. Le travail de modélisation est effectué à l'aide du langage de programmation Fortran 90 dans lequel sont implémentées les équations de conservations de la masse, des espèces et de l’énergie, l’équation de transport de la charge, ainsi que les équations algébriques. - Le modèle tridimensionnel instationnaire, repose sur l’utilisation de la mécanique des fluides numérique, et l’outil commercial Fluent a été retenu pour représenter les processus se déroulant au-dessus de la surface libre du lit.Le modèle complet est le couplage entre les deux sous modèles, étant donné les échanges qui s’y effectuent.Deux grands groupes de simulations ont été réalisés dans cette thèse : le cas monodimensionnel et le cas global (couplage Modèle 1D-Modèle 3D). Dans les deux situations, les simulations ont été effectuées dans le cas de fonctionnement au fuel lourd seul, puis dans celui du fonctionnement avec substitution partielle du combustible fossile par les combustibles alternatifs. Pour le modèle monodimensionnel, les simulations ont été effectuées en imposant les flux de chaleur dans la surface libre du lit et dans la paroi découverte. Alors que pour le modèle global, les simulations ont été effectuées en considérant les densités de flux de chaleur associées aux phénomènes physico-chimiques (combustion du fuel lourd, rayonnement, turbulence) se déroulant dans le volume de gaz situé au-dessus de la surface libre du lit.Les résultats ainsi obtenus nous ont permis de conclure sur l’importance de mener en amont une étude expérimentale dans un four tournant à l’échelle pilote afin de pouvoir disposer des ordres de grandeur des différents flux de chaleur au sein du four tournant. Les résultats obtenus nous ont également permis de nous rendre compte de la nécessité de disposer de la géométrie exacte (emplacement) du brûleur dans le four tournant. / Because of the depletion of fossil fuels and because of its increasing cost, waste has been used as alternative fuels in cement rotary kilns for several years. In order to fulfill the requirements of environmental protection and quality of the final product, it is necessary to understand and quantify the different processes occurring in the kiln.As part of this thesis, we focused on the partial substitution of waste (used tires and Refuse Derived Fuel "RDF") and biomass (agricultural residues) in rotary kilns producing cement at a rate of 50 % of energy supply. This thesis project was funded by the Democratic Republic of Congo, led by Kongo University (UK), as part of the capacity building of Congolese universities. The research work was carried out within the Laboratory of Thermal, Energy and Processes (LaTEP) of the National School of Engineering in Industrial Technologies (ENSGTI) /University of Pau, with the aim of to study and understand the thermochemical phenomena taking place in rotary kilns for the production of cement, in the case of partial substitution of fossil fuels by alternative fuels. For this, a mathematical model with two sub-models has been established:- The stationary one-dimensional model of the bed of solids and furnace casing, characterized in its first part by the mixing of cement flour, waste and / or biomass, and gas, and while in its second part by thermal exchanges. The modeling work is performed using the Fortran 90 programming language in which the conservation equations for mass, species and energy, the load transport equation, and the algebraic equations are implemented.- The unsteady three-dimensional model relies on the use of digital fluid mechanics, and the Fluent commercial tool has been retained to represent the processes taking place above the free surface of the bed.The complete model is the coupling between the two sub models, because of the exchanges that take place there.Two large groups of simulations have been realized in this thesis: the one-dimensional case and the global case (Model 1D-3D model coupling). In both situations, the simulations were carried out in the case of operation with heavy fuel oil alone, then in the case of operation with partial substitution of the fossil fuel by alternative fuels. For the one-dimensional model, the simulations were performed by imposing the heat flux in the free surface of the bed and in the exposed wall. Whereas for the global model, the simulations were performed considering the heat flux densities associated with physico-chemical phenomena (combustion of heavy fuel oil, radiation, turbulence) taking place in the volume of gas located above the free surface of the bed.The results thus obtained allowed us to conclude on the importance of carrying out an experimental study in a pilot scale furnace in order to be able to have orders of magnitude of the different heat flows within the rotating furnace. The results obtained also allowed us to realize the necessity to model the exact geometry (location) of the burner in the rotary kiln.

Four tournant à ciment

Modélisation physique et numérique

Clinkérisation

Pyrolyse de déchets et biomasse

Combustion

Gazéification

Clinker-Ciment

Déchets-Biomasse

Cement rotary kiln

Physical and numerical modeling

Clinkerization

Waste and Biomass Pyrolysis

Combustion

Gasification

Clinker-Cement

Waste-Biomass

621

Estudo da redução carbotérmica de minérios de ferro na forma de pelotas ou misturas autorredutoras em forno rotativo. / Study of carbothermic reduction of iron ore in the form of self-reducing pellets or mixtures in rotary kiln.

Alberto Eloy Anduze Nogueira

31 August 2010

A finalidade deste trabalho é estudar a redução carbotérmica de minério hematítico com misturas e pelotas autorredutoras em um forno rotativo experimental. Trabalhou-se com duas temperaturas, a 1673 e 1773 K (1400 a 1500 °C), em fluxo de argônio de 1Nl/min, em um forno rotativo experimental aquecido por resistências, com uma rotação fixa de 5 rpm. Foram realizadas diversas experiências, alterando variáveis como a temperatura, composição e quantidade da escória, tipo de redutor, e tipo de conformação. Foi estudado o tempo de residência das pelotas e misturas autorredutoras dentro do forno e sua interrelação com a inclinação do mesmo. Mediu-se a resistência a compressão de diferentes composições de pelotas. Foi analisada a fração de redução atingida nas experiências com ajuda de um método indireto proposto neste trabalho, atingindo-se frações de redução acima de 98%. Especial atenção foi dada para os casos limites estudados, o primeiro com uma mistura autorredutora de 81% de minério hematítico de baixo teor, 19% de coque de petróleo,+10% cimento ARI, processada a 1773 K (1500 °C) com 33% de escória final, a qual, apesar da grande quantidade de escória, atingiu uma fração de redução de 98,7%; e o segundo, para uma mistura autorredutora de 43,5% de minério hematítico de baixo teor, 56,5% de pó de serragem, processada a 1773 K (1500 °C), a qual atingiu uma fração de redução de 99,2%, provando, com as ressalvas cabíveis, a factibilidade de reduzir diretamente com pó de serragem. Com base nas observações experimentais sugeriram-se modelos do processo de redução-fusão tanto das misturas como das pelotas autorredutoras no forno rotativo. Analisaram-se a composição da escória e a composição da fase metálica obtida. Para comparar o grau de coalescimento entre as amostras, foram levantadas as análises granulométricas de cada uma delas, comparando-se as porcentagens em massa dos nódulos de ferro-carbono com diâmetro superior a 7,93 mm. Atenção especial foi dada ao método de desagregação do produto; pela ausência de normas técnicas especificas para processos autorredutores, foi empregada uma adaptação do método de desagregação por tambor (ASTM E279-95), e validada por moagem manual. Estudou-se o efeito das variáveis: temperatura de processamento, temperatura liquidus da escória, da quantidade de escória de alta temperatura liquidus, da quantidade de voláteis do redutor, da quantidade do redutor, e da ausência de conformação. Entre os resultados destas experiências tem-se que a maior temperatura de processamento leva a maior grau de coalescimento. Na medida em que a escória do sistema não se liquefaz, o processo de coalescimento é prejudicado. Na medida em que a quantidade de escória com alta temperatura liquidus aumenta, o grau de coalescimento decresce. Ao se aumentar a quantidade do redutor acima do necessário para a correta redução, carburação e colaescimento, prejudica-se o processo de formação dos nódulos de ferro-carbono. Ao se comparar o grau de coalescimento obtido entre as misturas e as pelotas autorredutoras, temse que o desempenho das misturas autorredutoras é superior. Para aclarar o efeito da temperatura liquidus da escória no processo de carburação e coalescimento, foram realizadas experiências paralelas para estudar como a temperatura liquidus da escória e a ausência do FeO afetava o coalescimento. Ao estudar o transporte de carbono pelas escórias sem e com a presença de um óxido redutível, tem-se que o transporte do óxido de ferro na escória sem agitação é um fenômeno difusivo. / The purpose of this work is to study the carbothermal reduction of hematite ore as self-reducing mixtures or pellets in an experimental rotary kiln. Two different temperatures were employed, 1673 and 1773 K (1400-1500 ° C) in an experimental rotary kiln heated by resistors, with a fixed rotation of 5 rpm and under an argon flow of 1Nl/min. Several experiments were performed by changing variables such as temperature, composition and quantity of slag, type of carbonaceous material, and type of conformation. The residence time inside the furnace and its interrelation with the slope of the kiln containing self-reducing pellets or mixtures was studied. It was measured the compressive strength of pellets of different compositions. It has been analyzed the fractional reduction achieved in the experiments with the help of an indirect method proposed in this work, reaching fractional reduction above 98%. Special attention was given to some cases, the first one with a self-reducing mixture of 81% low grade ore, 19% petroleum coke, ARI +10%, processed to 1773 K (1500 ° C) with 33% final slag, which despite the large amount of slag reached a fractional reduction of 98.7%, and the second for a self-reducing mixture of 43.5% low-grade ore, 56.5% of sawdust processed to 1773 K (1500 ° C) which reached a fractional reduction of 99.2%, proving, with reasonable exceptions, the feasibility of reducing directly with sawdust. Based on experimental observations, process models of both the reduction-melting of self-reducing mixtures and pellets in the rotary kiln were proposed. The composition of slag and composition of the metallic phase obtained were analyzed. To compare the degree of coalescence between the samples, particle size analysis of each one was performed, comparing the percentages by weight of iron-carbon nuggets with a diameter greater than 7.93 mm. Regarding the method of disintegration of the product, due to the lack of technical standards for specific self-reducing processes, the drum method (ASTM E279-95) was adapted and validated by manual grinding. It was studied the effect of the following parameters: processing temperature, slag liquidus temperature, the amount of high liquidus temperature slag, amount of volatile matter of the reducing agent, the amount of reducing agent, and the absence of conformation. These experiments have shown that the higher the processing temperature, the greater the degree of coalescence, and also that as long as the slag does not melt, the coalescence process is impaired. As the amount of slag with high liquidus temperature increases, the degree of coalescence decreases. Increasing the amount of carbonaceous material above to that necessary to reduction and carburization undermines the process of formation of iron-carbon nuggets. When comparing the degree of coalescence obtained between the self-reducing mixtures and pellets, it has been shown that the performance of self-reducing mixtures is superior. To clarify the effect of the slag liquidus temperature in the carburization and coarsening process, experiments were conducted to study how the liquidus temperature of the slag and the absence of FeO affected the coarsening. By studying the transport of carbon in slags with and without the presence of a reducible oxide, it has been shown that the transport of iron oxide in the slag without agitation is a diffusive phenomenon.

Autorredução

Fornos rotativos

Minério de ferro

Misturas autorredutoras

Nódulos de ferrocarbono

Pelotas autorredutoras

Redução carbotérmica

Carbothermic reduction

Iron ore

Iron-carbon nuggets

Rotary kiln

Self-reducing mixtures

Self-reducing pellets

Self-reduction