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L'aluminium au XXe et XXIe siècles. Étude d’économie industrielle / Aluminium in the 20th and 21st Centuries : an Industrial Economic PerspectiveBrault-Vattier, Thierry Pierre Antoine 02 October 2015 (has links)
A des dates et à des vitesses différentes selon les pays, l’aluminium a changé tout à la fois le monde industriel et les modes de vie. Au début du XXème siècle, le monde en développement était déjà partagé entre l’Amérique du Nord où acier et béton commençaient à façonner les villes reliées par le chemin de fer, et l’Europe où il fallait détruire pour reconstruire et où le changement a pris plus de temps. Aluminium et hydroélectricité ont effectué leurs débuts ensemble, ouvrant une longue période de croissance que leur complémentarité a accélérée. Les réussites techniques dans les deux domaines ont eu un effet boule de neige. L’expansion a duré ¾ de siècle jusqu’à ce que l’augmentation des usages domestiques de l’électricité contraigne la production d’aluminium à trouver de nouvelles sources de courant, au sein des États-Unis d’abord. Les pays en développement ont adopté le chemin suivi auparavant et assuré la continuité. Depuis 2003, la Chine est le premier producteur mondial d’aluminium. La modernisation a touché tous les domaines en même temps, sant apparaître des besoins considérables d’accompagnement. L’économie et la gestion ont construit et développé des bases théoriques et pratiques en réseau, amplifiant l’efficacité des progrès techniques. Ce qu’il a paru intéressant de mettre en lumière dans cette étude, ce sont les interactions durables entre la théorie économique et la production industrielle d’un métal qui a façonné le siècle. / At different times and speeds, depending on the countries concerned, aluminium has transformed both the world of industry and our ways of life. In the early 20th century, the developing world was already divided between North America, where steel and concrete were beginning to shape cities linked by railroads, and Europe, where it was necessary to demolish before rebuilding, and the transformation therefore took longer. Aluminium and hydroelectricity emerged together, heralding a long period of growth that was accelerated by their complementarity. Technical progress in both domains had a snowball effect. The expansion lasted three-quarters of a century, until the rising household demand for electricity forced aluminium producers to look for new sources of energy, firstly in the United States. The developing countries followed the same path and provided continuity. China has been the leading aluminium producer in the world since 2003. Modernisation affected both domains at the same time, creating considerable needs for support. Economics and management sciences have developed theoretical and practical foundations in a network, amplifying the effectiveness of technical advances. The interest of this study lies in our revelation of the lasting interactions between economic theory and industrial production.
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Influence of acid hydrogen peroxide treatment on refining energy and TMP propertiesWalter, Karin January 2009 (has links)
<p>The potential of using acid hydrogen peroxide under Fenton conditions to lower the electrical energy consumed during the production of Black spruce (Picea mariana) thermomechanical pulp (TMP) was investigated. The chemical system, which consisted of ferrous sulphate, hydrogen peroxide and optionally an enhancer (3,4-dimethoxybenzyl alcohol, ethylenediaminetetraacetic acid or oxalic acid/sodium oxalate), was evaluated as an inter-stage treatment where the primary refiner was used as a mixer. The produced TMPs were thoroughly characterised in order to explain the effect of the chemical system on fibre development and to be able to propose a mechanism for the impact on refining energy reduction. The possibility to improve the optical properties by washing, chelating and sodium dithionite or hydrogen peroxide bleaching the treated pulps was evaluated.</p><p> </p><p>The results obtained in a pilot plant trial show that it is possible to significantly reduce the comparative specific energy consumption by approximately 20% and 35% at a freeness value of 100 ml CSF or a tensile index of 45 Nm/g by using 1% and 2% hydrogen peroxide respectively. The energy reduction is obtained without any substantial change in the fractional composition of the pulp, though tear strength is slightly reduced, as are brightness and pulp yield. No major differences between the reference pulp and the chemically treated pulps were found with respect to fibre length, width or cross-sectional dimensions. However, the acid hydrogen peroxide-treated pulps tend to have more collapsed fibres, higher flexibility, a larger specific surface area and a lower coarseness value. The yield loss accompanying the treatment is mainly a consequence of degraded hemicelluloses. It was also found that the total charge of the chemically treated pulps is higher compared to the reference pulps, something that may have influenced the softening behaviour of the fibre wall.</p><p> </p><p>A washing or chelating procedure can reduce the metal ion content of the chemically treated TMPs considerably. The amount of iron can be further reduced to a level similar to that of untreated pulps by performing a reducing agent-assisted chelating stage (QY) with dithionite. The discoloration cannot, however, be completely eliminated. The brightness decrease of the treated pulps is thus not only caused by higher iron content in the pulp, but is also dependent on the type of iron compound and/or other coloured compounds connected with the acid hydrogen peroxide treatment. Oxidative bleaching with hydrogen peroxide (P) is more effective than reductive bleaching with sodium dithionite in regaining the brightness lost during the energy reductive treatment. Using a QY P sequence, a hydrogen peroxide charge of 3.8% was needed to reach an ISO brightness of 75% for the chemically treated pulps. The corresponding hydrogen peroxide charge for the untreated TMP reference was 2.5%.</p><p> </p><p>The radicals generated in the Fenton reaction will probably attack and weaken/soften the available outer fibre wall layers. This could facilitate fibre development and consequently lower the electrical energy demand for a certain degree of refinement.</p>
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Influence of acid hydrogen peroxide treatment on refining energy and TMP propertiesWalter, Karin January 2009 (has links)
The potential of using acid hydrogen peroxide under Fenton conditions to lower the electrical energy consumed during the production of Black spruce (Picea mariana) thermomechanical pulp (TMP) was investigated. The chemical system, which consisted of ferrous sulphate, hydrogen peroxide and optionally an enhancer (3,4-dimethoxybenzyl alcohol, ethylenediaminetetraacetic acid or oxalic acid/sodium oxalate), was evaluated as an inter-stage treatment where the primary refiner was used as a mixer. The produced TMPs were thoroughly characterised in order to explain the effect of the chemical system on fibre development and to be able to propose a mechanism for the impact on refining energy reduction. The possibility to improve the optical properties by washing, chelating and sodium dithionite or hydrogen peroxide bleaching the treated pulps was evaluated. The results obtained in a pilot plant trial show that it is possible to significantly reduce the comparative specific energy consumption by approximately 20% and 35% at a freeness value of 100 ml CSF or a tensile index of 45 Nm/g by using 1% and 2% hydrogen peroxide respectively. The energy reduction is obtained without any substantial change in the fractional composition of the pulp, though tear strength is slightly reduced, as are brightness and pulp yield. No major differences between the reference pulp and the chemically treated pulps were found with respect to fibre length, width or cross-sectional dimensions. However, the acid hydrogen peroxide-treated pulps tend to have more collapsed fibres, higher flexibility, a larger specific surface area and a lower coarseness value. The yield loss accompanying the treatment is mainly a consequence of degraded hemicelluloses. It was also found that the total charge of the chemically treated pulps is higher compared to the reference pulps, something that may have influenced the softening behaviour of the fibre wall. A washing or chelating procedure can reduce the metal ion content of the chemically treated TMPs considerably. The amount of iron can be further reduced to a level similar to that of untreated pulps by performing a reducing agent-assisted chelating stage (QY) with dithionite. The discoloration cannot, however, be completely eliminated. The brightness decrease of the treated pulps is thus not only caused by higher iron content in the pulp, but is also dependent on the type of iron compound and/or other coloured compounds connected with the acid hydrogen peroxide treatment. Oxidative bleaching with hydrogen peroxide (P) is more effective than reductive bleaching with sodium dithionite in regaining the brightness lost during the energy reductive treatment. Using a QY P sequence, a hydrogen peroxide charge of 3.8% was needed to reach an ISO brightness of 75% for the chemically treated pulps. The corresponding hydrogen peroxide charge for the untreated TMP reference was 2.5%. The radicals generated in the Fenton reaction will probably attack and weaken/soften the available outer fibre wall layers. This could facilitate fibre development and consequently lower the electrical energy demand for a certain degree of refinement.
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Erdfallablagerungen des südlichen Harzvorlandes / Archive der Umweltgeschichte der letzten Jahrtausende / Sediments in Karst Sinkholes of the southern Harz foreland / Archives for Environmental History of the last MillenniaDeicke, Matthias 05 November 2003 (has links)
No description available.
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Advanced Reduction Processes - A New Class of Treatment ProcessesVellanki, Bhanu Prakash 2012 August 1900 (has links)
A new class of treatment processes called Advanced Reduction Processes (ARP) has been proposed. The ARPs combine activation methods and reducing agents to form highly reactive reducing radicals that degrade oxidized contaminants.
Batch screening experiments were conducted to identify effective ARP by applying several combinations of activation methods (ultraviolet light, ultrasound, electron beam, microwaves) and reducing agents (dithionite, sulfite, ferrous iron, sulfide) to degradation of five target contaminants (perchlorate, nitrate, perfluorooctanoic acid, 2,4 dichlorophenol, 1,2 dichloroethane) at 3 pH levels (2.4, 7.0, 11.2). These experiments identified the combination of sulfite activated by ultraviolet light produced by a low pressure mercury vapor lamp as an effective ARP.
More detailed kinetic experiments were conducted with nitrate and perchlorate as target compounds and nitrate was found to degrade more rapidly than perchlorate. The effects of pH, sulfite concentration, and light intensity on perchlorate and nitrate degradation were investigated. The effectiveness of the sulfite/UV-L treatment process improved with increasing pH for both perchlorate and nitrate.
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A case study of non-ferrous metal theft at a selected mine in South AfricaCoetzee, Ben 06 1900 (has links)
The threat posed by non-ferrous metal theft to industries in South Africa is substantial
but is also regarded with indifference. A reason for this view may be that the criminal act
is ordinarily not accompanied by violence and the target of the crime is an object that is
far removed from the vicinity of the majority of South Africans. Non-ferrous metal theft
may sometimes even be erroneously termed a victimless crime. This study endeavours to
shed light on the complexities of non-ferrous metal theft and the industrial dangers that
may be suffered if this crime is not eradicated. A case study from the mining industry
was used to examine the nature and extent of non-ferrous metal theft. A mixed methods
approach was followed in terms of which qualitative and quantitative research was done
sequentially to provide the best possible representation of the situation. The participant
allowed access to data over a six-year period as well as access to mine employees for
interviews to assist with understanding the safety and security measures that the mine
put in place to protect its workforce. This information led to another realisation, namely
that if non-ferrous metal thieves cut an electricity supply line that is critical for life
support and transportation in the mine, mineworkers may succumb to the harsh
conditions underground. It also became evident that the police and the criminal justice
system must develop a better understanding of the seriousness of non-ferrous metal
theft. If this does not happen in the near future, managing the consequences of nonferrous
metal theft at South African mines will become a mammoth task. Such mines and
other industries affected by non-ferrous metal related theft must collaborate with each
other and the police in order to understand the nature of the crime and to ensure that
the prosecution of the perpetrators is handled properly. These industries should also
subscribe to a pragmatic approach to crime prevention whereby various components
from different crime prevention strategies are used to address the issues being
experienced and whereby a unique crime prevention model for each industry and mining
site can be developed. / Police Practice / M.A. (Policing)
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Artefatos em ferro de origem terrestre : um estudo de caso sobre a interface entre pesquisa arqueológica e conservação no sítio Charqueada Santa Bárbara, Pelotas, RS, BrasilVasconcelos, Mara Lúcia Carrett de 25 March 2014 (has links)
The current state of degradation of most archaeological collections has compromised the
research and protection of this heritage. To respond to these problems, some initiatives that
seek to modify the current practices of preservation of archaeological collections are
emerging, as the fieldwork in the Charqueada Santa Barbara archaeological site ( Pelotas, RS,
Brazil ), linked to the research project Pampa Negro: Arqueologia da Escravidão na Região
Sul do Rio Grande do Sul (1780-1888), which has brought together a multidisciplinary team
to talk about the praxis of each area and to think of appropriate solutions for the better
management and protection of archaeological collections. In the context of the conservation,
protocols for preventive and curative intervention of different types of materials were
developed and tested in field and laboratory. Among the types of material recovered in the
excavation, metal objects, especially iron, are those most susceptible to deterioration due to
the process of recovery and to the speed at which the corrosive processes occur as well as the
complexity of the products resulting from these. In this context, the aim of this study was to
analyze, from a study of the interface between conservation and archeology, how the
conservation procedures performed in the field and laboratory in the ferrous artifacts
contributed to the preservation of archaeological collections. It was expected to verify which
interventions enable a better conservation of archaeological origin and of the associated
information material culture, and disseminate the need for greater integration between the
experts related to the safeguard of the archaeological heritage areas. It was concluded that
conservation practices directly assist in the preservation of archaeological collections in its
material, documentary and symbolic aspects. Therefore, the conservator has become more of a manager of these collections, in a performance that, increasingly, is turning into an agent
crucial to the management of the archaeological heritage. / O estado atual de degradação de grande parte dos acervos arqueológicos tem comprometido
as pesquisas e a salvaguarda destes bens. Destas problemáticas vêm surgindo iniciativas que
buscam a modificação das práticas atuais de preservação dos acervos arqueológicos, como o
trabalho de campo do sítio Charqueada Santa Bárbara (Pelotas, RS, Brasil), vinculado ao
projeto O Pampa Negro: Arqueologia da Escravidão na Região Meridional do Rio Grande
do Sul (1780-1888), que reuniu uma equipe multidisciplinar a fim de dialogar a respeito da
práxis de cada área e pensar de forma conjunta soluções adequadas para um melhor
gerenciamento e salvaguarda dos acervos arqueológicos. No âmbito da conservação, foram
elaborados e testados em campo e em laboratório protocolos de intervenção preventiva e
curativa para distintos materiais. Dentre os materiais recuperados na escavação, os objetos
metálicos, em especial os de ferro, estão entre aqueles mais suscetíveis à deterioração
decorrente deste processo, em função da velocidade em que ocorrem os processos corrosivos
e da complexidade destes. Neste contexto, o objetivo da presente pesquisa foi analisar, a partir
de um estudo da interface entre Conservação e Arqueologia, de que forma os procedimentos
de conservação realizados em campo e em laboratório nos artefatos em ferro contribuíram
para a preservação dos acervos arqueológicos. Almejou-se verificar as intervenções que
possibilitam a melhor conservação da cultura material de origem arqueológica e da
informação associada, e difundir a necessidade de uma maior integração entre os especialistas
das áreas relacionadas à salvaguarda do patrimônio arqueológico. Concluiu-se que as práticas
de conservação auxiliam diretamente na preservação dos acervos arqueológicos, em suas
instâncias material, documental e simbólica. O conservador vem se configurando, portanto,
como mais um gestor destes bens, em uma atuação que, cada vez mais, se torna indispensável
ao gerenciamento do patrimônio arqueológico.
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Studies Of Multiferroic OxidesSerrao, Claudy Rayan 02 1900 (has links) (PDF)
This thesis presents the results of investigations of the synthesis, structure and physical properties of multiferroic materials. Multiferroics are materials in which two or all three of ferroelectricity, ferromagnetism and ferroelasticity occur in the same phase. Such materials have the potential applications of their parent materials, as well as new ones because of the interaction between the order parameters. The thesis is organized into four sections.
Section 1 gives an overview of multiferroics, explaining the origin of mul-tiferroicity , occurrence of magnetoelectric coupling, their possible technological ap-plications and the challenges involved.
Section 2 gives the scope of the investigations. The specific objectives of the present research on yttrium chromite, heavy rare earth chromites, solid solutions of yttrium chromite, rare earth manganites doped with alkaline earth metals, charge-ordered rare earth ferrites and indium manganite are outlined.
Experimental aspects of the work carried out are discussed in section 3. It gives details of the experimental set up and the basic operation principles of various structural and physical characterizations of the materials prepared.
In section 4, results of the investigations are discussed. Magnetic and di-electric properties of yttrium chromite (YCrO3), heavy rare earth chromites and YCr1-xMnxO3 are reported in section 4.1. These materials show canted antiferro-magnetic behavior below the Nel transition temperatures and dielectric transitions at high temperatures. Role of local non-centrosymmetry is discussed based on high-resolution neutron powder diffraction data. In 4.2 we discuss the results of charge-ordered rare earth ferrites which show good magnetoelectric effect. Magnetic, dielectric and magneto-dielectric properties of YCr1-xMnxO3 (Ln = rare earth) are discussed in 4.3. These materials show magneto-dielectric effect. In 4.4 we discuss the near normal incidence far infrared reflectivity spectra of a single crystal of TbMnO3, in the spectral range of 50cm−1 to 700 cm−1 from 10 K to 300 K. Finally in 4.5, magnetic and dielectric properties of bulk and thin films of indium manganite are discussed.
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Microstructure Design And Interfacial Effects On Thermoelectric Properties Of Bi-Sb-Te SystemFemi, Olu Emmanuel 06 1900 (has links) (PDF)
Climate change is a subject of deep distress in today’s world. Over dependence on hydrocarbon has resulted in serious environmental problems. Rising sea level, global warming and ozone layer depletion are the mainstream of any discuss world over. The collective goal of cutting carbon emission by the year 2020has prompted the search for clean, alternative energy sources. This effort are already yielding good reward as other forms of energy such as solar, wind, nuclear and hydro have received huge investment and renew interest over the past decade.
Thermoelectric materials over the past decades have been tipped to replace conventional means of power generations as these materials have the ability to convert heat to electrical energy and vice versa. They are simple, have no moving parts and use no greenhouse gases. But the major drawback of these materials is their low conversion efficiency. Hence there is a need to enhance the efficiency of thermoelectric material to fulfill their undeniable potentials.
A parameter called the thermoelectric figure of merit, ZT defines the efficiency of a thermoelectric material. ZT relates three non-mutually exclusive transport properties namely Seebeck coefficient, electrical conductivity and thermal conductivity. Efficient thermoelectric material should possess high Seebeck coefficient, high electrical conductivity and low thermal conductivity. Hence, one of the interesting ideas in the area of thermoelectric research is the concept of designing a bulk material with high density of phonon scattering centers so has to reduce the lattice contribution to thermal conductivity but at the same time have minimum impact oncharge carriers. This is usually achieved by utilizing interphase and grain boundaries which are localized defects to scatter phonons. The volume fraction of the grain/interphase boundaries can be control through phase modification and microstructure design. This thesis is centered on Bi-Sb-Te systems which are the present room temperature state of the earth thermoelectric material. The investigation revolves around developing a new kind of
microstructure in the well-studied Bi-Sb-Te system that shows tremendous potential as a means to reduce lattice contribution to thermal conductivity. The idea of having both p and n-type thermoelectric material preferably from the same material was also a motivation in our investigation. The thesis isdivided into six chapters.
The first chapter introduces the concept of thermoelectricity i.e. the direct conversion of thermal energy into electricity. The physics involved and contribution of individual to the science of thermoelectricity were enumerated. Efficiency, optimization and material selection for better thermoelectric performance were briefly enumerated. Prospective materials that are currently been investigated for better thermoelectric properties were also mentioned. The structure of the Bi-Sb-Te system which is the focus of this thesis is present in this chapter including doping effect on the thermoelectric performance of the system as well as the various methods present been employed to improve the thermoelectric properties of the system. Finally the chapter enumerates the scope and object of the present thesis.
The different experimental procedures adopted in the present thesis arediscussed in chapter 2. The details of different processing routes followed to synthesize flame-melted ingots, flame-melted + low temperature milled (cryo milling) + spark plasma sintering (SPS) alloy and flame-melted + melt spinning + spark plasma sintering (SPS) alloy, are discussed followed by the various structural and functional characterization techniques. The unique advantage of the spark plasma sintering techniques over the conventional sintering method was talked out in detail. The structural characterizations performed on the synthesized alloys include XRD, SEM and whilethe functional characterizations comprised of Hall measurement, Seebeck coefficient, electrical resistivity and thermal conductivity measurements.
Thermoelectric properties of selected composition of Bi-Sb-Te synthesized via flame-melting are presented in chapter 3.Detail study of four analyzed compositions namelyBi24Sb20Te56, Bi20Sb12Te69, Bi16Sb5Te79 and Bi29Sb11Te60resulted in four unique microstructure and different volume fraction of primary and secondary phases. The resultant morphologies of the microstructure were observed to have influence the thermoelectric behavior corresponding to each composition. The sole influence of anti-structural defects on the conductivity type and the role of microstructure morphologies and length scale were understood in this chapter. Samples with segregated Te and a solid solution BiSbTe3(eutectic morphology) form an n-type thermoelectric material while samples with only solid solution BiSbTe3 forms a p-type thermoelectric material. Pair of n-type and p-type material was obtained without the introduction of external dopant.The pair shows good compatibility factorsuitable for thermoelectric device.
In chapter 4, the thermoelectric properties of four selected composition of Bi-Sb-Te synthesized via low temperature milling plus spark plasma sintering is addressed. The analyzed compositions are as follows Bi24Sb20Te56, Bi18Sb11Te71, Bi17Sb6Te77, and Bi28Sb15Te57 respectively. The effect of low temperature milling combine with the prospect of minimum grain growth of spark plasma sintering on the thermoelectric properties of the selected compositions were determined. Samples with eutectic morphology which would otherwise scatter charge carriers were observed to have the highest carrier mobility as a result of high volume fraction of Te phase which serves as a donor injecting excess electrons into the system. The impact of small grain size was observed on the transport properties of the sample Bi28Sb15Te57 with the highest electrical resistivity, the best Seebeck coefficient and the lowest thermal conductivity. Pair of n-type and p-type material was obtained without the introduction of external doping elements. The pairshows good compatibility factor suitable for segmented thermoelectric device.
Chapter 5 narrates the thermoelectric properties of four compositions namely Bi30Sb13Te58, Bi23Sb13Te65, Bi18Sb5Te77 and Bi23Sb20Te58subjected to melt spinning plus spark plasma sintering.High cooling rate obtained during melt spinning process was observed in this chapter to cause a shift of composition which resulted in a microstructure morphology with eutectic colonies that is predominantly Te rich. These Te rich colonies in the sample Bi30Sb13Te58 was observed to change the conductivity type of the sample from an otherwise p-type to n-type while also aiding bipolar conduction which was detrimental to the overall thermoelectric performance of the alloy. Segregated Te in the form of eutectic morphology helps to inject excess electron into the bulk of the sample Bi23Sb13Te65 and Bi18Sb5Te77hereby increases the observed electrical conductivity which by virtue of the microstructure morphology is expected to be low. As a result of the processing routes, all four compositions in this chapter shown-type conductivity.
Chapter 6 presents the summary of the important conclusions drawn from this work.
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Biodegradabilní kostní implantáty na bázi železa / Biodegradable bone implants based on ironMüller, Petr January 2014 (has links)
The present work deals with the comparison of the properties of metallic biomaterials in terms of their suitability for use as a temporary metal implant. In the work is judged biocompatibility of materials, they are comparing the corrosion rates and the influence of additives in the iron alloy to change biocompatibility and corrosion rate. In a part of this work is suggesting a method of preparing biodegradable metallic samples with different alloying elements and determine the methods, processes and measuring the corrosion rates. Part of this work is the chapter dealing with the function and effect of iron in the human body and any complications that may occur when a surplus caused by the release of part of the implant during its degradation or corrosion products. The outcome of this work is sort of created an iron-based samples in terms of their electrochemical corrosion potential, corrosion rate of samples exposed in various corrosive solutions, spectroscopic elemental analysis and outputs from the microscopic observation of the structures.
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