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Porovnání různých metod stanovení melitelnosti práškových pojiv / Comparison of the different methods for the determination of the powder binders grindabilityVirágová, Tereza January 2017 (has links)
The aim of this thesis is to summarize the knowledge gained in the field of grinding medium-hard and hard materials. Work has focused on examining the grindability of the material using available laboratory mill. The part of the work is subsequent optimization of the grinding process on the device and evaluation of the results.
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Betongens hållfasthetsutveckling vid användning av olika ersättare för portlandklinker : En laborativ studie / Concrete strength development in the use of different replacement for clinker : An experimental studyNilsson, Daniel, Lundgren, Dennis January 2012 (has links)
Tillverkning av portlandklinker står för ungefär fem procent av världens totala koldioxidutsläpp. Det finns därför ett allmänt intresse att minska användandet av portlandklinker. Klinkern kan antingen ersättas av andra cementerande material, eller så kan nya cementsnåla recept utformas. I den här rapporten har två cement med inmald flygaska respektive slagg från Cementa AB undersökts. För att undersöka klinkerersättnings-materialens potential har tester för tryckhållfasthet, uttorkningskrympning, bindetid, värmeutveckling och arbetbarhet utförts. Resultaten visar att skillnaderna mellan försökscementen och byggcementet är så pass små att båda bör kunna användas som byggcement. Ytterligare har ultrafiller av kalksten använts som ersättare för att minska cementhalten i betongen. Det går lika bra att delvis ersätta försökscementen med ultrafiller som det gör för byggcementet. Med cementsnåla recept och större del ersättningsmaterial finns det stora möjligheter att spara på energi och miljö. Detta borde i framtiden kunna leda till ett bättre och mer miljövänligt byggmaterial. / Manufacture of clinker is responsible for about five percent of the total global carbon dioxide emissions. Therefore, there is a general interest in reducing the use of clinker. Clinker can either be replaced by other cementitious materials, or reduced by using lean-cement recipes. This report examines two experimental cements, one with fly ash and one with slag, developed by Cementa AB. To examine the potential of clinker replacement materials, tests for compressive strength, drying shrinkage, initial setting, heat generation and workability, were performed. The results show that the differences between the experimental cements and the reference are so small that both are useable as building cements. In addition, an ultrafine filler of limestone is used as a replacement material for further reduction of the clinker content in concrete. It was also found, that it is just as efficient to partly replace the experimental cements with ultrafine filler as in the reference cement. There are great opportunities to save energy and the environment impact with both clinker-saving cement recipes and with cement replacement materials. This should lead to a better, more environmentally friendly, building material in the future.
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Separate Calcination in Cement Clinker Production : A laboratory scale study on how an electrified separate calcination step affects the phase composition of cement clinkerVikström, Amanda January 2021 (has links)
Cement production is responsible for around 7% of the global anthropogenic carbon dioxide emissions. More than half of these emissions are due to the unavoidable release of carbon dioxide upon thermal decomposition of the main raw material limestone. Many different options for carbon capture are currently being investigated to lower emissions, and one potential route to facilitate carbon capture could be the implementation of an electrified separate calcination step. However, potential effects on the phase composition of cement clinker need to be investigated, which is the aim of the present study. Phases of special interest are alite, belite, aluminate, ferrite, calcite, and lime. The phase composition during clinker formation was examined through HT-XRD lab-scale experiments, allowing the phase transformations to be observed in situ. Two different methods of separate calcination were investigated, one method in which the raw meal was calcined separately, and one method where the limestone was calcined separately. The former yielded an alite amount similar to that of the reference experiments, whereas the latter method yielded a lower amount. It could, unfortunately, not be excluded that the difference was due to poor experimental conditions, and additional experiments are needed to investigate the matter further. The study does, however, indicate that a calcined raw meal might be used to produce a clinker of similar phase composition concerning major phases belite, aluminate, ferrite, alite, and free lime. A raw meal containing calcined limestone might, however, need longer residence time at clinkering temperature too obtain similar phase composition. In addition, a raw meal containing calcined limestone was observed to be carbonated to a greater extent upon reheating than a calcined raw meal. Further experiments are needed to fully understand the effects on clinker composition of an electrified separate calcination step, and several improvements to the experimental method are given in the study.
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Design och konstruktion av åror till snipa : Tillämpning av Design For Six Sigma / Design and Construction of Oars to a Gig Boat : Design For Six SigmaMolin, Mattias, Larsson, Adam January 2023 (has links)
The oar has historically played a significant role for Sweden as a lake andcostal dominated country. For many years small boats called “snipa” wereused to gather fish by people living along the coastlines or alongside lakes.Oars was then the only option for conveying the boat forward. In today’ssociety, oar-propelled boats don’t have the same importance for people toacquire food. However, there are still reasons for a continued use of oars inactivities such as private fishing, competitive rowing or outdoor pursuits.The consumer market today is largely focused on mass production ofproducts, which often results in a reduced availability of custom-made ones.Being able to “engineer to order” is sometimes preferable due to the fact thathigh-quality and robust designs are, in certain respects, essential.Linnaeus University is conducting a research project that has vitalized atraditional Sami hunting and fishing gig boat, designed to be conveyed byoars and requires specially adapted oars for two different types of waterconditions. Currently, private consumers have limited options, for productsthat is designed for this, on the market.The purpose of this work is to describe how the established and well-knownmethodology of Systems Engineering, more specific “Design For SixSigma” (DMADOV), can be used to design and construct oars for use in twodifferent water conditions.
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[pt] CARACTERIZAÇÃO DO CLÍNQUER E COMPORTAMENTO FÍSICO-MECÂNICO DO CIMENTO / [en] CHARACTERIZATION OF CLINKER AND PHYSICAL - MECHANICAL BEHAVIOR OF CEMENTREGINA PAULA BALDEZ TRINTA 19 May 2020 (has links)
[pt] Atualmente, a indústria cimenteira tem usado o coprocessamento no intuito de atender a aspectos econômicos e de sustentabilidade por meio da utilização de resíduos industriais como matérias-primas e/ou combustíveis não convencionais. Isto pode gerar, através da introdução de maior variabilidade de elementos menores, consequências nas reações de clinquerização com geração de modificações
morfológicas dos cristais e nas propriedades que influenciam estas reações (tensão superficial, viscosidade). Em função da maior utilização do coprocessamento, as análises mineralógica e microestrutural se tornaram ainda mais significativas para apoio a formação do diagnóstico do processo incluindo o grau de reatividade do clínquer e por sua vez, previsões do desempenho do cimento. No entanto, o número de variáveis de controle do forno de clinquer é tão elevado que se propôs o emprego da metodologia estatística chamada Análise de Componentes Principais (PCAPrincipal Analysis Components em inglês) para escolher as de maior representatividade. Os resultados da caracterização mineralógica do clínquer coprocessado com o resíduo CSS50 utilizando o Método de Rietveld/Difração de Raios-X dos quatro principais constituintes do clínquer foram próximos aos valores teóricos (potenciais de Bogue). A fase predominante do C3S foi monoclínica, típica de clínqueres industriais, e quanto ao C3A, a fase predominante foi cúbica. O diagnóstico apresentado pela caracterização microestrutural apresentou clínquer com alta reatividade. Quanto ao cimento coprocessado com o resíduo CSS50, foram realizados os ensaios físico-mecânicos: tempo de pega e resistência a compressão, conforme ABNT NBR 16607 e NBR 7215. Os ensaios de tempo de pega e resistência à compressão do cimento atenderam plenamente a norma ABNT NBR 16697. / [en] Currently, the cement industry uses the coprocessing of industries residues as raw materials or alternative fuel for attending economics and the sustainability aspects. This procedure can introduce a variety of minor elements that can affect the clinkerization reactions by producing morphological changes of the clinker crystals and changing the surface tension and viscosity. Thus, mineralogic and
microstrutural characterizations are necessary to understand the clinker reactivity and its effect on the Portland cement properties. Nonetheless, the number of clinquer kiln control variables is enormous, and it is proposed to use the Principal Component Analysis (PCA) to choose the most important ones. The X-ray diffraction characterization of the clinker showed that the four major constituents are consistent with the theorical values (Bogue potentials). The C3S phase was monoclinic, which is usual for industrial clinkers, and the C3A phase was usually cubic. These results suggest that the formation of a high reactivity clinker. The physico-mechanical characterizations setting time and compressive strength of the Portland cement were conducted according to NBR 16607 and NBR 7215 ABNT norms. The Portland Cement results agreed with the NBR 16697 ABNT norm.
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Les navires vikings : conception géométrique et architecture traditionnelle au Moyen Âge scandinave.Lafrenière Archambault, Luce 12 1900 (has links)
Selon l’image reçue des Vikings, ce peuple incarne l'esprit d’une immense solidarité primitive ayant su résister rudement au joug du christianisme et à la domination du Latin en Europe occidentale. Cette image n’est pas sans ses contradictions et, s’il est vrai que l’écriture était encore inconnue en Scandinavie durant les premiers siècles de l’expansion viking, on sait maintenant que le commerce et la colonisation, autant que les célèbres raids, motivèrent l’irruption des peuples scandinaves sur la scène médiévale. Quant aux navires de ces marchands, colonisateurs, pêcheurs et guerriers, ils apparaissent, un peu à l’image des Vikings eux-mêmes, sur le grand tableau de l’histoire nautique sous l’enseigne d’une originalité et d’une technicité sans parallèle.
Comment les Vikings construisaient-ils leurs navires, en leur donnant une symétrie, un équilibre et une finesse si achevés? Les premiers ethnologues qui se sont intéressés à cette question ont privilégié les idées issues d'une tradition acquise par des générations de constructeurs, et d'astuces simples pour équilibrer tribord et bâbord. Puis, ils se sont rapidement tournés vers les techniques inhérentes à la construction à clin : utilisation de planches fendues et non sciées et de rivets abondants témoignant d’une sidérurgie acquise depuis peu. Le problème que présentent ces navires, est que leur construction artisanale demeure conforme à l’image reçue des Vikings, mais que leur conception architecturale, réalisée selon des connaissances théoriques très exactes, brise la notion d’une Scandinavie médiévale illettrée et coupée des grands centres du savoir. Ce travail s’intéresse précisément à la conception architecturale des navires scandinaves du VIIIe au XIe siècle pour montrer comment ils s’insèrent dans un haut savoir européen dès leur apparition. Il explore ensuite les liens qui unissent ce savoir théorique aux aspects véritablement originaux des navires vikings, en l’occurrence leur construction à clin et leur homogénéité sur une grande région à travers plus de cinq siècles.
Au terme de cette recherche, l'analyse réalisée sur le maître-couple de trois épaves vikings, une épave antique et une épave scandinave pré-viking, a permis de mettre en évidence plusieurs indices de l'utilisation du système de conception géométrique apparaissant pour la première fois dans les traités d'architecture navale de la Renaissance, et ce, sur chacune de ces épaves. Les résultats obtenus démontrent qu'il est possible d'employer un système transversal de conception pour des navires vraisemblablement construits bordé premier et assemblés à clin. / According to the popular image of the Vikings, this people embodied a spirit of immense solidarity that resisted the yoke of Christianity and the dominance of Latin in Western Europe. This image is not without its contradictions, and while it is true that writing was unknown in Scandinavia during the early centuries of the Viking expansion, we now know that trade and colonization, as much as their famous raids, motivated the irruption of the Scandinavian people on the medieval stage. However, there is an important area where the contradictions between the image of the Vikings and archaeological data still remain intact : the Vikings ships. These ships were designed for traders, settlers, fishermen and warriors. Like the Vikings themselves, their ships reflect a genius of unparallelled originality and high performance.
How did the Vikings build their ships, conferring them with such impressive symmetry, balance and finesse? The first ethnologists who studied this issue favoured ideal notions of traditions compiled over generations of builders, along with simple tips for balancing portside and starboard. Following this reductive cultural representation, they then quickly turned to the essential elements of clinker built construction: use of split planks and a great number of iron rivets, evidence of a new metallurgy. The problem with these ships is that, while their construction is made using traditional methods fitting to the popular image of the Vikings, their architectural design, deriving from very refined knowledge, contradicts the idea of an illiterate medieval Scandinavia cut off from the main centres of learning. This work focuses on the architectural design of Scandinavian ships from the eighth to the eleventh century, to show their place in high European knowledge. It then seeks to understand the links between the theoretical and practical aspects of Vikings ships : the clinker built construction and a great homogeneity over more than five centuries.
Analysis of the master frames of five wrecks – three Viking ships, one Ancient wreck and a pre-Viking Scandinavian vessel – has found positive indicators of the use of geometric design principles that were formerly thought to be original in Renaissance shipbuilding treatises. Each wreck showed signs of the application of these design principles. The results show moreover that it was possible to use a transverse system of hull design for ships that were built shell-first in the clinker style.
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Ověření možnosti syntetické přípravy ettringitu a thaumasitu / Verification of the synthetic preparation of ettringite and thaumasiteHrdina, Matěj January 2015 (has links)
The work is focused on the possibilities of using FBC fly ash for composite cements, monitoring their hydration processes, especially the creation of AFt phase. The possibility of preparing synthetic ettringite and thaumasite and their detection.
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Estratégias para a minimização da emissão de CO2 de concretos estruturais. / Strategies for the minimization of CO2 emissions from concrete.Oliveira, Vanessa Carina Heinrichs Chirico 29 May 2015 (has links)
A maior parte das emissões de CO2 do concreto origina-se na produção do cimento. A estratégia tradicional de minimização da pegada de CO2 tem privilegiado o grau de substituição do clínquer. O trabalho examina o impacto dessa estratégia e também a influência da escolha do fornecedor de cimento sob a ótica de sua matriz energética, a variação do consumo de cimento para concretos de mesma resistência e do desvio padrão do processo produtivo de acordo com o controle do processo de produção do concreto. O método de trabalho inclui dados de revisão bibliográfica, normalização técnica e dados de central de concreto. A estratégia tradicional de escolha do tipo de cimento baseando-se em seu teor de clínquer mostra-se incompleta, pois há uma grande variação e sobreposição dos teores de clínquer permitidos nas normas técnicas brasileiras. No momento atual estima-se que a indústria cimenteira nacional utilize praticamente toda a escória de alto forno gerada no país e a quase totalidade das cinzas de melhor qualidade. Dessa forma, aumentando a demanda de cimento, a produção de clínquer aumenta, e o teor de adições no clínquer diminui dentro das extensas faixas permitidas pelas normas técnicas. Nesse cenário, a seleção de um tipo de cimento em detrimento de outro pode reduzir o impacto de uma obra específica, embora não traga necessariamente benefícios ambientais para o país. A troca da matriz energética por carvão vegetal de madeira de florestas plantadas pode minimizar a parcela de emissões provenientes de combustíveis do cimento, diminuindo a emissão de 350 kg para 10 kg de CO2 por tonelada de clínquer produzida. A eficiência do processo de formulação do concreto apresenta grande potencial para diminuir a quantidade de cimento utilizada no concreto, diminuindo, assim, as emissões totais de CO2 do concreto. Os dados levantados apontam uma variação de consumo de cimento de mais de 100% para concretos de mesma resistência. A influência do desvio padrão das condições de produção apresenta potencial menor para a diminuição das emissões, diminuindo no máximo 13% o consumo de cimento no concreto. A combinação das quatro estratégias estudadas demonstra a complexidade da emissão do concreto e o grande potencial para mitigar suas emissões de CO2. A necessidade de informações específicas sobre a emissão dos cimentos, seu teor de clínquer e sua matriz energética, uma técnica de dosagem otimizada e um controle das condições de produção do concreto demonstram que há, tanto para fornecedores de matérias primas do concreto quanto para os usuários e produtores do concreto, muito a ser feito para minimizar as emissões deste material tão consumido. / Most of concretes CO2 emissions originate from cement production. The traditional strategy for minimizing the CO2 footprint of concrete has favored the degree of clinker replacement. This paper examines the impact of this strategy and also the influence of the choice of the cement supplier based on the fuel composition in cement production, the variation of cement usage in concretes of the same strength and the standard deviation of the production process of concrete based on the control of its production process. The method of work uses data from literature, technical standards and data from a concrete central. The traditional strategy of the choice of cement type based on its clinker content is insufficient due to the extensive and overlapping clinker content range of different cement types allowed in Brazilian technical standards. At the present time, it is estimated that the cement industry utilizes all of the blast furnace slag generated in the country and nearly all quality fly ash. Consequently, if there is an increase in the demand for cement, there is an increase in clinker production, and the rate of additions to the clinker decreases, respecting the extensive limits permitted by technical standards. In this scenario, the selection of blast furnace slag cement and fly ash cement does not necessarily offer environmental benefits to the country as a whole and does not demonstrate a global impact, despite the possibility of benefiting specific construction sites. The substitution of the fuel mix for coal from planted forest wood can lower the portion of cement emissions due to fuel burning from 350 kg to 10 kg of CO2 per tonne of clinker produced. The efficiency of the concrete mix formulation shows great potential to lower the amount of cement usage in concrete, thus lowering the total CO2 emissions of concrete. The data presented point to a variation of more than 100% of cement content in concretes of the same strength. The influence of the standard deviation of the production process shows smaller impact on lowering concrete CO2 emissions shows that there is a maximum potential of 13% of lowering cement content in concrete. The combination of the four strategies studied demonstrates the complexity of concretes emissions and the great potential for mitigating its CO2 emissions. The need for information on cements specific emissions, its clinker content and fuel mix, the concrete mix formulation and the variability of the production process of concrete show that there is, for concrete raw material suppliers as well as concrete producers and users, a lot to be done to minimize the emissions of this widely consumed material.
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Les navires vikings : conception géométrique et architecture traditionnelle au Moyen Âge scandinaveLafrenière Archambault, Luce 12 1900 (has links)
No description available.
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Estratégias para a minimização da emissão de CO2 de concretos estruturais. / Strategies for the minimization of CO2 emissions from concrete.Vanessa Carina Heinrichs Chirico Oliveira 29 May 2015 (has links)
A maior parte das emissões de CO2 do concreto origina-se na produção do cimento. A estratégia tradicional de minimização da pegada de CO2 tem privilegiado o grau de substituição do clínquer. O trabalho examina o impacto dessa estratégia e também a influência da escolha do fornecedor de cimento sob a ótica de sua matriz energética, a variação do consumo de cimento para concretos de mesma resistência e do desvio padrão do processo produtivo de acordo com o controle do processo de produção do concreto. O método de trabalho inclui dados de revisão bibliográfica, normalização técnica e dados de central de concreto. A estratégia tradicional de escolha do tipo de cimento baseando-se em seu teor de clínquer mostra-se incompleta, pois há uma grande variação e sobreposição dos teores de clínquer permitidos nas normas técnicas brasileiras. No momento atual estima-se que a indústria cimenteira nacional utilize praticamente toda a escória de alto forno gerada no país e a quase totalidade das cinzas de melhor qualidade. Dessa forma, aumentando a demanda de cimento, a produção de clínquer aumenta, e o teor de adições no clínquer diminui dentro das extensas faixas permitidas pelas normas técnicas. Nesse cenário, a seleção de um tipo de cimento em detrimento de outro pode reduzir o impacto de uma obra específica, embora não traga necessariamente benefícios ambientais para o país. A troca da matriz energética por carvão vegetal de madeira de florestas plantadas pode minimizar a parcela de emissões provenientes de combustíveis do cimento, diminuindo a emissão de 350 kg para 10 kg de CO2 por tonelada de clínquer produzida. A eficiência do processo de formulação do concreto apresenta grande potencial para diminuir a quantidade de cimento utilizada no concreto, diminuindo, assim, as emissões totais de CO2 do concreto. Os dados levantados apontam uma variação de consumo de cimento de mais de 100% para concretos de mesma resistência. A influência do desvio padrão das condições de produção apresenta potencial menor para a diminuição das emissões, diminuindo no máximo 13% o consumo de cimento no concreto. A combinação das quatro estratégias estudadas demonstra a complexidade da emissão do concreto e o grande potencial para mitigar suas emissões de CO2. A necessidade de informações específicas sobre a emissão dos cimentos, seu teor de clínquer e sua matriz energética, uma técnica de dosagem otimizada e um controle das condições de produção do concreto demonstram que há, tanto para fornecedores de matérias primas do concreto quanto para os usuários e produtores do concreto, muito a ser feito para minimizar as emissões deste material tão consumido. / Most of concretes CO2 emissions originate from cement production. The traditional strategy for minimizing the CO2 footprint of concrete has favored the degree of clinker replacement. This paper examines the impact of this strategy and also the influence of the choice of the cement supplier based on the fuel composition in cement production, the variation of cement usage in concretes of the same strength and the standard deviation of the production process of concrete based on the control of its production process. The method of work uses data from literature, technical standards and data from a concrete central. The traditional strategy of the choice of cement type based on its clinker content is insufficient due to the extensive and overlapping clinker content range of different cement types allowed in Brazilian technical standards. At the present time, it is estimated that the cement industry utilizes all of the blast furnace slag generated in the country and nearly all quality fly ash. Consequently, if there is an increase in the demand for cement, there is an increase in clinker production, and the rate of additions to the clinker decreases, respecting the extensive limits permitted by technical standards. In this scenario, the selection of blast furnace slag cement and fly ash cement does not necessarily offer environmental benefits to the country as a whole and does not demonstrate a global impact, despite the possibility of benefiting specific construction sites. The substitution of the fuel mix for coal from planted forest wood can lower the portion of cement emissions due to fuel burning from 350 kg to 10 kg of CO2 per tonne of clinker produced. The efficiency of the concrete mix formulation shows great potential to lower the amount of cement usage in concrete, thus lowering the total CO2 emissions of concrete. The data presented point to a variation of more than 100% of cement content in concretes of the same strength. The influence of the standard deviation of the production process shows smaller impact on lowering concrete CO2 emissions shows that there is a maximum potential of 13% of lowering cement content in concrete. The combination of the four strategies studied demonstrates the complexity of concretes emissions and the great potential for mitigating its CO2 emissions. The need for information on cements specific emissions, its clinker content and fuel mix, the concrete mix formulation and the variability of the production process of concrete show that there is, for concrete raw material suppliers as well as concrete producers and users, a lot to be done to minimize the emissions of this widely consumed material.
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