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1	Modeling of inclusion evolution in Ladle Metallurgy Furnace Tabatabaei, Yousef January 2018 (has links) The Ladle Metallurgy Furnace (LMF) in secondary steelmaking processing allows (1) the adjustment of the chemical composition by ferroalloy addition, (2) temperature control by electrical reheating (3) homogenization of chemical composition by argon stirring (4) desulphurization and (5) control of inclusions produced during steel deoxidation. The solid oxide inclusions not only cause nozzle clogging during the continuous casting process and reduce production efficiency, but they are also harmful to the properties of the steel product. In the case of aluminum killed steel, calcium treatment of steel is typically employed to modify the solid alumina inclusions or magnesium aluminate inclusions to liquid or partially liquid calcium aluminates. Injected calcium in form of calcium wire creates calcium bubbles. A portion of calcium dissolves into the steel and diffuses into the steel bulk. However, during the dissolution process some of the injected calcium reacts, close to the injection plume, with dissolved sulfur and oxygen in the steel to form calcium sulfide and calcium oxide inclusions [1]. During ladle treatment of aluminum killed steel the inclusions which form initially are typically alumina. As the dissolved oxygen content of the steel is reduced to very low levels magnesium may be reduced from the slag and subsequently react with the inclusions resulting in a shift towards higher contents of MgO and formation of magnesium aluminate spinel. Magnesium may originate from the top slag, ferro alloys or refractories. Therefore, magnesium aluminate spinels are almost always present before calcium injection and any consideration of calcium treatment should also consider the modification of spinel in addition to alumina. The current work develops a fundamental kinetic model to describe the evolution of the inclusion population during ladle treatment of aluminum killed steels. The model builds on previous work in the author’s laboratory predicting the kinetics of slag metal reactions during ladle treatment and the transformation of alumina to magnesium aluminate spinel. The model addresses the modification of alumina inclusions by calcium and considers mass transfer of species to the inclusion-steel interface and diffusion within the calcium aluminate phases formed on the inclusion. The dissolution of calcium from calcium bubbles into the steel and formation of oxide and sulfide inclusions at the plume is coupled with the kinetic model for inclusion modification. It is found that rate of supply of calcium to the inclusions controls the overall rate of transformation. The inclusion-steel kinetic model is then coupled with the previously developed steel-slag kinetic model. The coupled inclusion-steel-slag kinetic model is applied to the chemical composition changes in molten steel, slag, and evolution of inclusions in the ladle. The result of calculations is found to agree well with industrial heats for species in the steel as well as inclusions during Ca treatment. The kinetic model is further extended to model the modification of spinel inclusions by calcium treatment. Coupling the model for inclusions modification to a multi component kinetic model for the slag-steel reactions in the ladle furnace allowed prediction of the change of average composition of inclusions which was subsequently verified using plant data from ArcelorMittal Dofasco operations. Good agreement between the experimental and calculated average composition of inclusions was obtained for most of the industrial heats. Finally, a sensitivity analysis of the coupled kinetic model was performed to compare the effect of the different processing conditions including sulphur content, stirring, total oxygen, slag composition and reoxidation, on the evolution path of inclusions. / Thesis / Doctor of Philosophy (PhD) Ladle Furnace Kinetis Non-metallic inclusions steelmaking
2	The effect of argon stirring on separation of oxidic inclusions in the ladle furnace at Sandvik Materials Technology AB Andersson, Erik January 2015 (has links) The effect of gas stirring in the ladle furnace on inclusion content in austenitic and duplex stainless steel has been investigated at Sandvik Materials Technology AB. The effect was mainly investigated by varying duration of stirring time and intensity of stirring. Any effect on inclusion content was determined by examining total oxygen content before and after the ladle treatment, along with mapping the chemical composition, size and size distribution of the inclusions. Any effect on slag composition was also determined. The effect of gas stirring was measured on a number of heats with continuous sampling during normal production. Data regarding oxygen content during the ladle refining process and the duration of the processes was used to determine a quantifiable relationship between stirring time, stirring intensity and resulting change in oxygen content. The result of the investigation was recommendations regarding the use of varied stirring intensities and duration of gas stirring for achieving negative net loss in oxygen content before and after ladle treatment. argon stirring ladle furnace Metallurgy and Metallic Materials Metallurgi och metalliska material
3	Reciclagem de escória de forno panela de aciaria elétrica em material cerâmico Cardoso, Marília Duarte January 2009 (has links) Submitted by William Justo Figueiro (williamjf) on 2015-07-22T23:07:49Z No. of bitstreams: 1 03d.pdf: 22951970 bytes, checksum: 9da38abb9560e49f24444b1189b463ca (MD5) / Made available in DSpace on 2015-07-22T23:07:49Z (GMT). No. of bitstreams: 1 03d.pdf: 22951970 bytes, checksum: 9da38abb9560e49f24444b1189b463ca (MD5) Previous issue date: 2009 / Nenhuma / A escória é um dos inúmeros resíduos gerados nos processos siderúrgicos de fabricação do aço e tem como composição básica óxidos metálicos e nãometálicos. Dependendo do processo de geração ela pode ser escória de altoforno (fusão redutora de minérios) ou de aciaria elétrica (produção do aço). A escória do forno panela de aciaria elétrica, utilizada nesta pesquisa, é gerada na etapa do refino secundário no forno panela, sendo este o processo de refino secundário mais utilizado no Brasil. Existem outros resíduos gerados na aciaria como: pó de aciaria, refratários e plásticos, que às vezes por serem em pouca quantidade ou por questões operacionais da empresa não são segregados. A reciclagem de resíduos é uma prática que deve ser incorporada como uma alternativa quando não existe chance de minimização. Nos últimos anos as pesquisas sobre reciclagem externa das escórias voltaram-se principalmente para a incorporação em cimento e concreto (como agregado graúdo ou miúdofunção filler) e mais recentemente no material cerâmico, com poucos estudos ainda com escória do forno panela. Nota-se também que existe uma tendência mundial nas últimas décadas de reciclagem de resíduos em associação (mais de um resíduo na formação de um material) e normalmente isto ocorre em materiais cerâmicos devido a sua alta capacidade de incorporação de outros materiais. Esta pesquisa buscou com diversos métodos de caracterização da escória do forno panela de aciaria elétrica avaliar a viabilidade técnica da reciclagem em material cerâmico. Para as condições desta pesquisa e mediante ensaios (perda ao fogo, análise térmica, retração linear, resistência mecânica na flexão, absorção de água, porosidade aparente, análise visual e em lupa e MEV) com a escória do forno panela de aciaria elétrica, exceto no ensaio de absorção de água (corpos de prova sinterizados a 950°C - D1 com 5% e D45 com 10%), a escória mostrou potencial para ser utilizada como coproduto. Os corpos de prova D45 mostraram uma tendência de maior resistência mecânica que os corpos D1, isto provavelmente está relacionado a menor quantidade de CaO que a escória D45 contém, característica esta ligada ao seu maior tempo de estocagem. Os resultados obtidos permitem incorporar até 15% (teor máximo testado) da escória de forno panela de aciaria elétrica no material cerâmico com função de vedação ou estrutural. / The slag is one of the many solid wastes generated in the steelmaking processes of steel production, which is constituted by metallic and non-metallic oxides. Depending on the process of slag generation, it can be slag blast furnace (smelting reduction of ores) or electric arc furnace (steel production). The slag ladle furnace from electric steelmaking, used in this study is generated in the stage of secondary refining in ladle furnace, which is the stage of refinement most used in Brazil. There are other solid wastes generated in the steel plant, such as electric arc furnace dust, refractory and plastics, which are sometimes in small quantities, and because of operational issues the company is unable to be segregated. The recycling of solid waste is a practice that should be incorporated as an alternative when there is no chance of minimizing. In recent years research on recycling of slag outside turned mainly to the incorporation in cement and concrete (as aggregate or filler kid-function) and more recently a few studies are related to its addition in the ceramic material. Actually, there is a worldwide trend to recycle solid waste in combination (more than one residue in the formation of a material) and very often this occurs in ceramic materials due to its high capacity to incorporate other materials. This research, with the various methods of characterization of the slag from ladle furnace, were carried out to evaluate the technical feasibility of recycling in ceramic material. Considering the conditions of this study and all tests (loss on ignition, thermal analysis, linear shrinkage, mechanical strength in bending, water absorption, porosity, visual analysis and microscope and SEM) used to study the ladle furnace slag, except the test of water absorption (specimens sintered at 950°C - D1 to D45 and 5% to 10%), the s lag has shown a potential to be used as by-product. The samples D45 showed a trend of greater strength than the bodies D1, this is probably related to the least amount of CaO to the slag contain D45, a characteristic linked to its longer storage. The results show the incorporation up to 15% (maximum level tested) of the ladle furnace from electric steelmaking in the ceramic material as bricks or structural blocks. ACCNPQ::Engenharias::Engenharia Civil Escória de forno panela Reciclagem Material cerâmico Ladle furnace slag Recycling Ceramic material
4	Avaliação da gestão e tecnologia Ambiental Aplicada ao pó de aciaria elétrica Acosta, Clóvis Dutra January 2013 (has links) Esta tese apresenta os métodos de gerenciamento associados ao Pó de Aciaria Elétrica (PAE) gerado no forno elétrico a arco (FEA) e no forno-panela (FP), envolvendo dois grandes tópicos: sistema de gestão ambiental e fatores relacionados à tecnologia. O processo do PAE percorre as seguintes etapas: entrada e beneficiamento da matériaprima, preparação, carregamento e fusão de carga no FEA, formação e retirada de escória, vazamento do aço para a panela, refino no forno-panela, assim como o sistema de captação das emissões atmosféricas e destinação do PAE captado no FEA e FP. Os métodos de gerenciamento foram estruturados em cima do aprendizado técnico, qualitativo e quantitativo adquirido no desenvolvimento das atividades profissionais, dos levantamentos sobre as tecnologias disponíveis para destinação e reciclagem do PAE, dos mapeamentos das características das instalações de captação do PAE de empresas siderúrgicas, bem como das bibliografias e visitas técnicas realizadas. As informações reunidas foram empregadas para desenvolver duas matrizes de avaliação, consolidando assim, um critério para verificar as práticas de gestão ambiental e de tecnologias que estão associadas ao PAE. O principal resultado das matrizes foi a identificação e priorização das necessidades de melhorias, tanto do sistema de gestão ambiental como da área de tecnologia. A avaliação das empresas siderúrgicas, segundo estas matrizes, mostrou quais práticas possuem menores valores e que, por conseqüência, devem requerer maior esforço para melhorar seus desempenhos, bem como aquelas de maior valor que requerem uma consolidação da sua rotina para manterem o elevado nível de desempenho atingido. Como conclusão, foi obtida uma ferramenta robusta que respondeu de forma consistente a avaliação do processo do PAE e a pergunta sobre “O que se encontra mais desenvolvido, os processos de gestão ou os de tecnologia?”. As matrizes de avaliação foram preenchidas por especialistas ambientais de três Empresas siderúrgicas. O resultado obtido com essa ferramenta mostrou que os desempenhos sobre as práticas de gestão são superiores aos desempenhos das práticas de tecnologia e que esta metodologia de avaliação está apta para ser aplicada em qualquer outro processo ou empresa. Ficou evidenciado que o conhecimento e a inteligência ambiental são requisitos para assegurar que as estratégias de médio e longo prazo estejam corretamente alinhadas às boas práticas de gestão e melhores tecnologias disponíveis. / The thesis presents the methods associated with the management of the electric arc furnace (EAF) baghouse dust and ladle furnace (LF) dust. The management methods cover two broad topics: environmental management system practices and technology related factors. The EAF baghouse dust and ladle furnace (LF) dust process has the following steps: input and processing raw materials, EAF charging and melting, slag generation and removal, furnace tapping of the steel to the LF, refining in the LF, as well as the EAF dedusting system, dust recycling and final destination. The management methods were determined based on professional experience of the author, assessment of typical installations of steel plant dedusting system, bibliographies review, available technologies to EAF/LF dust destination and recycling and subject technical literature, as well technical visits undertaken. Collectively the information was used to develop two standard evaluation standard matrices which provide criteria to assess environmental management system practices and technology associated with EAF dust management. The primary goal of the assessments was to identify and prioritize areas for potential improvement - either in environmental management systems area or the technology area. The assessment results showed that steel plants which have practices with lower values, according to these matrices, should require greater effort to improve their performance, while those with good score, will require a consolidation of their routine to maintain the high level of performance already achieved. The matrices were filled by environmental experts from three steelmaking companies. Finally, as a result of this project a rigorous and reliable assessment tool was designed to evaluate the meltshop dust generation and management process and provide a quantitative answer to the following question: `Which area has achieved a higher level of development as it relates to meltshop dust management: environmental management system practices or control technology?’ The results from using this tool have shown that the performance of management practices is superior to the control technology. Furthermore, experiences captured during the assessment indicate this evaluation methodology is fully adaptable and can be applied to other processes and/or other businesses. It was clearly highlighted how knowledge and environmental intelligence are requirements to assure that the medium and long term strategies are properly aligned with the available best practices to environmental management system and control technology. Fornos elétricos a arco Tecnologia ambiental Pó de aciaria elétrica Gestão ambiental Evaluation Matrix Dedusting System Environmental Technology Environmental Management
5	Investigation of the scale factor between full scale ladle furnace process and water models Abelin, Mathias, Blomkvist, Håkan January 2020 (has links) The ladle furnace process is an important process in the steel manufacturing industry. The purpose of this process is to optimize the composition of the elements in the melt as well as to homogenize the temperature in the liquid. It is common practice to model this process using smaller water models. In order to accurately scale these models a variety of criteria and scaling factors are needed. The central phenomenon which all else is derived from is the two-phase gas plume dominating the fluid flows. The plume, and its dependant parameters are difficult to define. Which ones ought to be used and how to use them has not been standardized. Concerns have been raised whether the most common method of scaling is even applicable in ladle metallurgy. This report gives an account for studies concerning these variables and their effect on the subject. The objective of this report is to highlight ways to improve these simulations with respect to debated parameters. The conclusion of this study points out the reasons for why these variables may be of importance for the modeling of the ladle furnace process. It also specifically mentions future work that should be conducted in order to provide deeper knowledge of thedifferent parameters affecting the method of modeling. / Skänkmetallurgin är en viktigt process inom stålindustrin. Syftet med denna process är att optimera den kemiska sammansättningen i smältan och att homogenisera temperaturen i vätskan. Det är vanligt att modelera denna process med hjälp av vattenmodeller. För att träffsäkert skala dessa modeller krävs en mängd kriterier och skal-faktorer. Det mest centrala fenomenet, utifrån vilket allt annat kan härledas, är två-fas gasplymen som dominerar flödena i skänken. Plymen och dess beroende parametrar är svåra att definera. Vilka som bör användas och hur de används har inte standardiserats. Oro har väckts över om den vanligaste skalningsmetoden ens går att använda i skänkmetallurgi. Denna rapport redogör för studier rörande dessa variabler och deras påverkan på ämnet. Syftet med denna rapport är att belysa olika tillvägagångssätt till att förbättra dessa simulationer med hänsyn till debaterade parametrar. Slutsatsen för denna studie lyfter fram anledningarna till varför dessa variabler är av vikt för modellering för skänkmetallurgin. Även framtida arbete som bör utföras föratt ge djupare förståelse för de olika parametrarna belyses. Ladle furnace Modified Froude number Two-phase gas plume Water model scaling Skänkmetallurgi Froudes modifierade tal Två-fas gasplym Skalning av vattenmodell Metallurgy and Metallic Materials Metallurgi och metalliska material
6	Top Gas Blowing Technique to Prevent Slopping in Ladle and Basic Oxygen Steelmaking Process Harazeen, Abdullah January 2022 (has links) In the steel industry, slag foaming plays a crucial role in many steel processes, given its positive impact on the thermal efficiency of the furnace and its life span. However, excessive foaming causes an overflow in the converter known as “slopping”. Slopping hinders the effectiveness of the processes, especially with the complex and unpredictable foaming rate. This problem occurs mainly in the BOS-processes and after melt tapping to the ladle furnace. The goal of this study is to test and relate a new foaming control system, by blowing a gas (nitrogen or argon) on the surface of the melt to suppress the foam. Firstly, the foaming index of the provided industrial heats for a general LD converter (21 heats) and Outokumpu’s ladle furnace (31 heats) were calculated to find which heat is most likely to slop. Then, a series of experiments were performed to investigate the new foam controlling system’s reliability using a cold model. The results demonstrated that blowing argon instead of nitrogen from the top nozzle suppresses the foam more effectively, which can be attributed to its higher density. Additionally, the optimal argon flow rate required to suppress the foam in worst-case slopping scenarios in the LD converter and the ladle furnace were 874 and 221 m3/min respectively. The provided data further supports the efficacy of this slopping prevention technique, in theoretical and practical aspects. / I stålindustrin spelar slaggskumning en avgörande roll i många stålprocesser, med tanke på dess positiva inverkan på ugnens termiska effektivitet och dess livslängd. Överdriven skumning orsakar emellertid ett överflöde i konvertern som kallas "utkok". Utkok hindrar processernas effektivitet, särskilt med den komplexa och oförutsägbara skumningshastigheten. Detta problem uppstår främst i BOS-processerna och efter tappning till skänkugnen. Målet med denna studie är att testa ett nytt kontrollsystem genom att blåsa en gas (kväve eller argon) på smältytan för att slå sönder skummet. Först beräknades skumindexet för de tillhandahållna industriella chargerna för en allmän LD (21 charger) och Avestas skänk (31 charger) för att hitta vilken charge som har störst risk för utkok. Därefter utfördes en serie experiment för att undersöka det nya skumstyrsystemets tillförlitlighet med hjälp av en kall modell. Resultaten visade att blåsning av argon istället för kväve från det övre munstycket undertrycker skummet mer effektivt, vilket kan hänföras till dess högre densitet. Dessutom var den optimala argonflödeshastigheten som krävdes för att undertrycka skummet i värsta fallet i LD och skänkanläggningen 871 respektive 221 m3/min. De tillhandahållna uppgifterna stöder ytterligare effekten av denna förebyggande teknik, i teoretiska och praktiska aspekter. slag slag foaming slopping prevention BOS LD converter ladle furnace foaming index and cold model experiment Metallurgy and Metallic Materials Metallurgi och metalliska material
7	Исследование влияния донной продувки в промежуточном ковше на качество транспортных марок стали : магистерская диссертация / Investigation of the influence of bottom blowing in the intermediate bucket on the quality of transport steel grades Власов, М. А., Vlasov, M. A. January 2021 (has links) Целью работы является изучение влияния донной продувки в промежуточном ковше на содержание неметаллических включений в транспортном металле и пути повышения качества данных марок стали. В качестве решения проблемы рассмотрена гипотеза о зависимости содержания неметаллических включений в стали от состава шлака на установке «печь-ковш»; создана физическая модель МНЛЗ; предложена схема расположения аргонных блоков в промежуточном ковше, что позволит создать оптимальные потоки металла для флотации неметаллических включений. / The aim of the work is to study the effect of bottom blowing in the intermediate bucket on the content of non-metallic inclusions in the transport metal and ways to improve the quality of these steel grades. As a solution to the problem, the hypothesis of the dependence of the content of non-metallic inclusions in steel on the composition of the slag at the furnace-ladle installation is considered; a physical model of the CCM is created; a scheme for the arrangement of argon blocks in the intermediate ladle is proposed, which will create optimal metal flows for flotation of non-metallic inclusions. АГРЕГАТ «КОВШ-ПЕЧЬ» ПРОДУВКА АРГОНОМ ФЛОТАЦИЯ ПРОМЕЖУТОЧНЫЙ КОВШ MASTER'S THESIS NON-METALLIC INCLUSIONS "LADLE-FURNACE" UNIT ARGON PURGE FLOTATION INTERMEDIATE LADLE
8	Practical investigation of mixing phenomena by physical modelling : Scaling criteria applied for bottom gas-stirred water modelling of metallurgical vessels Garpenquist, Simon, Lindfors, Carl Erik Sebastian January 2021 (has links) Gas stirring is currently the most commonly used method of homogenizing liquid steel in commercial processes. However, due to the harsh environment during the process, physical models built out of e.g. plexiglass have been used to easier understand the complex phenomenon occurring in the process. The models are also used to optimize stirring conditions and estimate mixing times. Instead of liquid steel, water has been used for modelling, to increase safety and reduce costs. The water models are usually scaled down to sizes that are easier to handle. Scaling correctly requires fulfilling commonly used criteria and dimensionless numbers. This report investigated the accuracy of these dimensionless numbers and the relations commonly used for scaling. Existing studies and relations were evaluated, and the theoretically best suitable scaling equations were tested. Three bottom blown vessels were built, in order to test the existing relations. By applying scaling criteria and calculating gas flow rates accordingly, the correlation between theoretical mixing time and measured mixing time could be investigated. This thesis concluded that the correlation between the measured mixing times was not significant, however, by implementing the scale factor λ1/2 a better approximation seems to be given. / Gasomrörning är för tillfället den vanligaste metoden som används för att homogenisera flytande stål i kommersiella processer. På grund av de svåra förhållandena under processen har fysiska modeller, byggda av exempelvis plexiglas, använts. Detta för att enklare förstå de komplexa fenomen som uppstår under processen. Modellerna används också för att optimera omrörningsförhållandena och för att uppskatta blandningstider. Istället för flytande stål har vatten använts vid modellering för att öka säkerheten och minska kostnaderna. Vattenmodellerna är vanligtvis nedskalade till storlekar som är lättare att hantera. En korrekt skalning kräver att vanliga kriterier och dimensionslösa tal uppfylls. Denna rapport undersökte noggrannheten för dessa dimensionslösa tal samt relationer som vanligtvis används vid skalning. Befintliga studier och relationer utvärderades och de teoretiskt mest lämpliga skalningsekvationerna testades. Tre stycken kärl med bottenblåsning byggdes för att testa dessa relationer. Genom att tillämpa skalningskriterier och beräkna gasflödeshastigheterna, kunde korrelationen mellan de teoretiska och uppmätta blandningstiderna undersökas. Denna avhandling drog slutsatsen att korrelationen mellan de uppmätta blandningstiderna inte var signifikant. Dock verkade en bättre approximation fås när skalfaktorn λ1/2 implementerades. Ladle furnace Water model Mixing time Modified Froude number Scaling criteria Scaling factors Skänkmetallurgi Vattenmodell Blandningstid Froude's modifierade tal Skalnings kriterier Skalnings faktorer Metallurgy and Metallic Materials Metallurgi och metalliska material

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