Global ETD Search

261	Second-generation high-temperature superconducting coils and their applications for energy storage Yuan, Weijia January 2010 (has links) Since a superconductor has no resistance below a certain temperature and can therefore save a large amount of energy dissipated, it is a 'green' material by saving energy loss and hence reducing carbon emissions. Recently the massive manufacture of high-temperature superconducting (HTS) materials has enabled superconductivity to become a preferred candidate to help generation and transportation of cleaner energy. One of the most promising applications of superconductors is Superconducting Magnetic Energy Storage (SMES) systems, which are becoming the enabling engine for improving the capacity, efficiency, and reliability of the electric system. SMES systems store energy in the magnetic field created by the flow of direct current in a superconducting coil. SMES systems have many advantages compared to other energy storage systems: high cyclic efficiency, fast response time, deep discharge and recharge ability, and a good balance between power density and energy density. Based on these advantages, SMES systems will play an indispensable role in improving power qualities, integrating renewable energy sources and energizing transportation systems. This thesis describes an intensive study of superconducting pancake coils wound using second-generation(2G) HTS materials and their application in SMES systems. The specific contribution of this thesis includes an innovative design of the SMES system, an easily calculated, but theoretically advanced numerical model to analyse the system, extensive experiments to validate the design and model, and a complete demonstration experiment of the prototype SMES system. This thesis begins with literature review which includes the introduction of the background theory of superconductivity and development of SMES systems. Following the literature review is the theoretical work. A prototype SMES system design, which provides the maximum stored energy for a particular length of conductors, has been investigated. Furthermore, a new numerical model, which can predict all necessary operation parameters, including the critical current and AC losses of the system, is presented. This model has been extended to analyse superconducting coils in different situations as well. To validate the theoretical design and model, several superconducting coils, which are essential parts of the prototype SMES system, together with an experimental measurement set-up have been built. The coils have been energized to test their energy storage capability. The operation parameters including the critical current and AC losses have been measured. The results are consistent with the theoretical predictions. Finally the control system is developed and studied. A power electronics control circuit of the prototype SMES system has been designed and simulated. This control circuit can energize or discharge the SMES system dynamically and robustly. During a voltage sag compensation experiment, this SMES prototype monitored the power system and successfully compensated the voltage sag when required. By investigating the process of building a complete system from the initial design to the final experiment, the concept of a prototype SMES system using newly available 2G HTS tapes was validated. This prototype SMES system is the first step towards the implementation of future indsutrial SMES systems with bigger capacities, and the knowledge obtained through this research provides a comprehensive overview of the design of complete SMES systems. 537.623
262	Contribution au développement des aimants supraconducteurs MgB2 R & W refroidis par conduction solide. / Contribution to the development of dry R & W MgB2 superconducting magnets Pasquet, Raphael 08 January 2015 (has links) Actuellement, l’immense majorité des aimants supraconducteurs, notamment d’IRM, sont refroidis par un bain d’hélium liquide à pression atmosphérique. Néanmoins, ce type de refroidissement est onéreux et impose des contraintes sécuritaires importantes pour les grands volumes. Pour ces raisons, le refroidissement des aimants supraconducteurs est souhaitable sans l’hélium liquide. L’utilisation de cryogénérateur permet de refroidir par conduction solide jusqu’à 4 K et ainsi supprimer l’hélium liquide. Néanmoins, les faibles puissances disponibles combiner aux difficultés de mise en œuvre de ce type de refroidissement rendent difficile l’utilisation dans ces conditions du NbTi. En revanche à 10 K, la puissance des cryogénérateurs augmente d’un facteur 10, mais l’utilisation d’un supraconducteur à haute température critique est alors nécessaire. Notre choix s’est porté sur les conducteurs MgB2 R & W qui ont l’avantage d’être relativement économique à mettre en œuvre, mais qui ont, en revanche, le défaut d’être sensible à la déformation. Il est donc nécessaire d’être soigneux lors de leurs bobinages pour ne pas dégrader leurs performances supraconductrices. Dans le cadre de cette thèse, nous avons développé un insert froid refroidis par conduction solide permettant de mesurer le courant critique des conducteurs MgB2 R & W ainsi que des maquettes. Pour ce faire, un nouveau type de contact thermique à base de nitrure d’aluminium a été développé. En complément, nous avons conçu deux maquettes d’aimant MgB2 R & W : un solénoïde et une double galette. Cette dernière a été fabriquée (grâce à une nouvelle méthode de bobinage brevetée) et testée avec succès. / Currently, the majority of superconducting magnets, including MRI, are cooled by a bath of liquid helium at atmospheric pressure. Nevertheless, this type of cooling is expensive and imposes significant security constraints for large volumes. For these reasons, the cooling of superconducting magnets is desirable without liquid helium. Cryocooler provides dry cooling to 4 K without any liquid helium. However, the power available is low and dry cooling is difficult. In these conditions, it is complicate to use NbTi with dry cooling. But if we increase the operating temperature to 10 K, the power of cryocooler increases by a factor of ten. Nevertheless in this case, it is necessary to use of a high critical temperature superconductor. We choose to use MgB2 R & W conductors because it is relatively low cost but it has the handicap to be sensible at mechanical stress. It is therefore necessary to be careful during their winding to not degrade their superconducting performance. As part of this thesis, we have developed a dry test facility to measure the critical current of MgB2 R & W conductors as well as mock-ups. To do this, a new type of thermal contact based on aluminum nitride has been developed. In addition to this development, we designed two MgB2 R & W magnet mock-ups: a solenoid and a double pancake. The double pancake was manufactured (with a new patented winding method) and it has been successfully tested. Conduction solide Nitrure d'aluminium Aimant supraconducteur MgB2 Double galette React & wind Superconducting magnets Aluminium nitride 530
263	Analýza a inovace stejnosměrných elektrických motorků / DC Motors Analysis and Innovation Šimko, František January 2011 (has links) The thesis aims to explain the design a prototype of an innovated small engine. It is divided into three main parts. The first part is focused on the analysis of low power DC small engines available on the market. The second part consists of measuring, construction and loss analysis of a DC small engine with permanent magnets. The last part deals with the possible innovations of a small engine with permanent magnets and subsequent implementation of some of them. The innovations are supported by calculations and simulations.
264	Modelování elektrických prvků vozidel / Modeling of electrical components vehicles Kósa, Valentin January 2015 (has links) Master’s thesis deals with the issue of electric vehicles. In thesis’s outset is overview about sources of electric power and types of electric engines applicable for electric vehicles. The main part of this document is creating model of vehicles with engine and source of power for them in Simulink. The resulting model includes models of ultracapacitor and synchronous motor with permanent magnets. Vehicles in model is presented by load of electric engine. In last part of document are executes ride simulations on the model which was created and subsequently simulations are analyzed.
265	Développement d'un procédé écologique pour le recyclage des aimants permanents Nd-Fe-B : voie hydrothermale, broyage. / Development of an Ecological Process for Nd-Fe-B Permanent Magnet Recycling : Hydrothermal Way, Mechanical Milling Maât, Nicolas 17 February 2017 (has links) Dans le contexte actuel, l’approvisionnement en terres rares est un enjeu capital, et le recyclage des déchets produits par les sociétés industrialisées apparaît comme une solution extrêmement pertinente d’un point de vue écologique. Dans ce travail, nous nous sommes intéressés aux aimants permanents Nd-Fe-B, car ils constituent un gisement potentiel important pour le néodyme, mais aussi pour le dysprosium et le praséodyme, éléments également critiques. Plus précisément, les aimants présents au sein des disques durs d’ordinateur ont été étudiés en vue de leur recyclage. L’intérêt est donc de mettre en place des solutions permettant le retraitement et la valorisation de ces aimants, présentant non seulement un impact environnemental faible, mais également un coût bas. Nous avons décidé de nous intéresser au traitement hydrothermal des aimants permanents Nd-Fe-B en vue de leur recyclage. L’étude du traitement thermique des aimants Nd-Fe-B en présence d’une solution saline pour des températures avoisinant les 225°C, permet la mise en évidence d’une dégradation complète du matériau. La poudre récupérée à l’issue du procédé est donc constituée de cristaux octaédriques, correspondant à la magnétite, et de cristaux aciculaires correspondant aux hydroxydes de néodyme, mais également aux différentes terres rares présentes en tant que dopants dans la phase intergranulaire. A l’issue du traitement hydrothermal, les fragments de revêtement peuvent être retirés par tamisage, en raison de leur dimension millimétrique, et les ocydes de fer séparés des hydroxydes de terres rares par séparation magnétique. Afin de valoriser les aimants Nd-Fe-B comme matière première magnétique permettant la fabrication de nouveaux aimants permanents, le broyage a également été envisagé. Des échantillons d’alliage Nd2Fe14B ont été broyés à haute énergie sous atmosphère protectrice, et nous avons réalisé l’étude microstructurale et magnétique de ces poudres. Les échantillons ont été analysés par magnétométrie SQUID, par spectrométrie Mössbauer, ainsi que par Sonde Atomique Tomographique. Ainsi, nous avons pu mettre en évidence un phénomène couplé de décomposition et de nanostructuration à l’échelle moléculaire de la phase Nd2Fe14B. L’ensemble de ce travail a donc permis d’étudier le comportement et les transformations des aimants Nd-Fe-B au cours de deux procédés très différents : le traitement hydrothermal et le broyage mécanique. Les résultats obtenus lors du traitement hydrothermal sont très prometteurs en vue du recyclage des terres rares à grande échelle. / Rare earth supplying is a very current topic, linked to the rare earth crisis of 2010. « Urban mining » is a promising path for recycling rare earths included in waste daily generated by industralized countries. In this work, we focus on recycling Nd-Fe-B permanent magnets, because they are a very interesting deposit for Neodymium, but also for Dysprosium and Praseodymium. More precisely, permanent magnets included in hard disks drives have been considered. The objective of this work is to set up environmentally friendly and low cost recycling processes for rare earths. First, we investigated hydrothermal treatment of Nd-Fe-B permanent magnets, We developed a new and environmentally friendly approach for recycling Ni−Cu coated Nd-Fe−B permanent magnets included in computer hard disk drives. In a closed reactor, the coated magnets are heated at 250 °C in water mixed with sodium chloride for up to 18 h. First, the hydrothermal treatment induces the removal of the metallic coating that can be recovered by sieving. Then, the Nd-rich phase reacts with water, leading to the formation of Nd(OH)3. Atomic hydrogen is absorbed by the Nd2Fe14B phase, leading to the formation of Nd2Fe14BHx. The volume expansion of the intergranular phase, in relation to the formation of Nd(OH)3, together with the lattice expansion of the Nd2Fe14BHx phase causes the disintegration of the magnets. Finally, Nd2Fe14BHx is oxidized by water into Fe3O4 and Nd(OH)3. The Nd(OH)3 crystals can be isolated from the Fe3O4 crystals by magnetic separation. This process is thus an easy way to extract rare earths from permanent magnets found in WEEE. It uses green chemistry design principles and can be applied to large amounts of magnetic wastes. Mechanical milling of Nd-Fe-B permanent magnets has also been investigated, and, in the study presented here, the milling effect on the magnetic properties of the Nd2Fe14B intermetallic was investigated using SQUID measurements, Mössbauer spectrometry and atom probe tomography (APT). Mechanical milling of the Nd2Fe14B alloy leads to its decomposition and its nanostructuration. This transformation induces first the formation of an amorphous, disordered phase Nd-Fe-B, with an enrichment in Neodymium; then to the formation of a mixture of -Fe and Nd-rich regions. The corresponding microstructure is very characteristic, with the formation of pure iron particles, with a hundred of nanometers in size, surrounded by an amorphous shell enriched in Neodymium and in Boron. Finally, intermixing of these phases is observed. Thanks to this work, we determine the behavior and the transformations of Nd-Fe-B permanent magnets during two very different processes: hydrothermal treatment and mechanical milling. Results obtained with hydrothermal treatment are very promising for recycling rare earths at the industrial scale. Dir. physique Aimants permanents Autoclaves Voie hydrothermale Recyclage Terres rares Permanent magnets Autoclaves Rare earths Recycling 538
266	ESR and Magnetization Studies of Transition Metal Molecular Compounds Aliabadi, Azar 13 January 2016 (has links) Molecule-based magnets (molecular magnets) have attracted much interest in recent decades both from an experimental and from a theoretical point of view, not only because of their interesting physical effects, but also because of their potential applications: e.g., molecular spintronics, quantum computing, high density information storage, and nanomedicine. Molecular magnets are at the very bottom of the possible size of nanomagnets. On reducing the size of objects down to the nanoscale, the coexistence of classical properties and quantum properties in these systems may be observed. In additional, molecular magnets exist with structural variability and permit selective substitution of the ligands in order to alter their magnetic properties. Therefore, these characteristics make such molecules suitable candidates for studying molecular magnetism. They can be used as model systems for a detailed understanding of interplay between structural and magnetic properties of them in order to optimize desired magnetic properties. This thesis considers the investigation of magnetic properties of several new transition metal molecular compounds via different experimental techniques (continuous wave electron spin resonance (CW ESR), pulse ESR, high-field/high-frequency ESR (HF-ESR) and static magnetization techniques). The first studied compounds were mono- and trinuclear Cu(II)-(oxamato, oxamidato)/bis(oxamidato) type compounds. First, all components of the g-tensor and the tensors of onsite ACu and transferred AN HF interactions of mononuclear Cu(II)- bis(oxamidato) compounds have been determined from CW ESR measurements at 10 GHz and at room temperature and pulse ELDOR detected NMR measurements at 35 GHz and at 20 K. The spin density distributions of the mononuclear compounds have been calculated from the experimentally obtained HF tensors. The magnetic exchange constants J of their corresponding trinuclear compounds were determined from susceptibility measurements versus temperature. Our discussion of the spin density distribution of the mononuclear compounds together with the results of the magnetic characterization of their corresponding trinuclear compounds show that the spin population of the mononuclear compounds is in interplay with the J values of their corresponding trinuclear compounds. The second studied compounds were polynuclear Cu(II)-(bis)oxamato compounds with ferrocene and ferrocenium ligands. The magnetic properties of these compounds were studied by susceptibility measurements versus temperature to determine J values. In addition, the ESR technique is used to investigate the magnetic properties of the studied compounds because they contain two different magnetic ions and because only the ESR technique can selectively excite different electron spin species. These studies together with geometries of the ferrocenium ligands determined by crystallographic studies indicate that the magnetic interaction between a central Cu(II) and a Fe(III) ions changed from the antiferromagnetic coupling to the ferromagnetic coupling when a stronger distortion of the axial symmetry in the feroccenium cation exists. Therefore, the degree of the distortion of the feroccenium cation is a control parameter for the sign of the interaction between the central Cu(II) ion and the Fe(III) spins of the studied compounds. The last two studied molecular magnets were a binuclear Ni(II) compound (Ni(II)-dimer) and a cube-like tetranuclear compound with a [Fe4O4]-cube core (Fe4-cube). HF-ESR measurements enabled us to determine the g-factor, the sign, and the absolute value of the magnetic anisotropy parameters. Using this information together with static magnetization measurements, the J value and the magnetic ground state of the studied compounds have been determined. In Ni(II)-dimer, two Ni(II) ions, each having a spin S = 1, are coupled antiferromagnetically that leads to a ground state with total spin Stot = 0. An easy plane magnetic anisotropy with a preferable direction for each Ni(II) ion is found. For Fe4-cube, a ground state with total spin Stot = 8 has been determined. The analysis of the frequency dependence and temperature dependence of HF-ESR lines reveals an easy axis magnetic anisotropy (Dcube = -22 GHz (-1 K)) corresponding to an energy barrier of U = 64 K for the thermal relaxation of the magnetization. These results indicate that Fe4-cube is favorable to show single molecular magnet (SMM) behavior. info:eu-repo/classification/ddc/530 ddc:530
267	Simulation, design and experimental validation of a passive magnetic damper for ultra-fast actuators Chen, Chen January 2014 (has links) A contact system driven by a high energetic Thomson actuator requires to be decelerated from full speed down to zero. The forces originated from the interaction between a stationary copper tube and a moving array of magnets combined with plastic or ferromagnetic material are used to generate eddy-current damping. Five different configurations of small but strong (N52) neodymium magnets and spacers were benchmarked for simple free-fall damping. A comparison between experimental results and simulations (using COMSOL) has shown that the most effective damping is reached by two consecutive permanent magnets with opposite magnetization directions ,separated by low-carbon content steel concentrators(SN - Fe concentrator- NS). The proposed damper design is the result of the balance between various parameters such as magnet orientation topology in the array, spacer material and its dimensions, copper tube thickness and the air gap between copper tube and array. Furthermore, the design was scaled up and an actuator-drive system was added to perform more realistic tests, which demonstrated the damping effectiveness on a fast moving armature actuated by a Thomson coil energized by a capacitor bank. All models in the simulation predicted the damping effect in advance. Investigations were conducted with two cases: (1) A solid copper rod was supposed to pass through the magnet array; (2) A plastic shaft was applied to support the magnet array. Finally a damping prototype with a plastic shaft was built for completing damping tests. The results of these tests validated the numerical model with a high degree of accuracy. Damping Thomson actuator eddy currents magnets ferromagnetic materials Annan elektroteknik och elektronik
268	Synthèse et études de cuprates de basse dimensionnalité à propriétés thermiques fortement anisotropes / Single crystal growth and study of low-dimensionnal cuprates with highly anisotropic heat transport properties Bounoua, Dalila 12 December 2017 (has links) Ce manuscrit porte sur l’étude de cuprates de basse dimensionnalité, les systèmes à chaînes de spins SrCuO₂ et Sr₂CuO₃. Un des intérêts de ces deux composés est qu’ils présentent des conductions thermiques fortement anisotropes. Celles-ci comportent une contribution magnétique due au transport de la chaleur via les excitations de spinons qui se manifeste uniquement dans la direction des chaînes de spins. Notre étude a pour objectif la mise en évidence des mécanismes qui gouvernent ces propriétés de transport, notamment à travers l’étude des interactions entre les spinons, les phonons et les défauts. Les interactions spinons (phonons)-défauts ont été sondées par l’introduction intentionnelle de dopants (1-2%) non-magnétiques sur le site du cuivre : Mg²⁺, Zn²⁺, Pd²⁺ ou Ni²⁺, ou encore par l’introduction d’éléments possédant des degrés d’oxydation différents sur le site du strontium : La³⁺ ou K⁺. Les composés ont été synthétisés sous leur forme monocristalline par la méthode de fusion de la zone solvante. Des caractérisations structurales, magnétiques et thermiques des composés purs et dopés ont été réalisées. Les spectres d’excitations magnétiques de ces cuprates ont été déterminés par diffusion inélastique de neutrons, spectroscopie RMN et spectroscopie de photoémission résolue en angle afin de révéler l’impact de la substitution. L’étude des spectres de phonons a également été réalisée par diffusion inélastique de neutrons. Les résultats de ces mesures sont corrélés aux propriétés de conduction thermique des composés purs et dopés.. / This manuscript deals with the study of low dimensional cuprates, namely, the spin chains systems SrCuO₂ and Sr₂CuO₃. These two compounds exhibit highly anisotropic thermal conduction properties along the spin-chains direction, where magnetic thermal conduction contributes to the heat transport process via spinon excitations. Our study aims to highlight the mechanisms that govern the heat transport properties, particularly through the study of the scattering channels involving spinon, phonon and defects. The spinon (phonon)–defect scattering was probed by the intentional introduction of nonmagnetic dopants (1-2%) on the copper site, by: Mg²⁺, Zn²⁺, Pd²⁺ or Ni²⁺, or by the introduction of elements carrying different oxidation level on the strontium site, by: La³⁺ or K⁺. Single crystals of the pure and doped materials have been grown by the travelling solvent floating zone method. The structural, magnetic and thermal characterizations of the pure and doped compounds were performed. The magnetic excitation spectra of the compounds were determined by inelastic neutron scattering, NMR spectroscopy, and angle resolved photoemission spectroscopy to reveal the impact of the substitution on the spin dynamics of the doped compounds. The study of phonon spectra has also been performed by inelastic neutron scattering. Results from inelastic neutron scattering have been correlated to the heat transport properties of the pristine and substituted materials. Cuprates Chaînes de spin Conduction thermique Basse dimension Spinons Phonons Cuprates Spin chains Thermal conduction Low-Dimensional magnets Spinon Phonon
269	Magnetic studies on lanthanide-based endohedral metallofullerenes Velkos, Georgios 13 December 2021 (has links) My PhD thesis is an in-depth study of the magnetic properties of a series of different lanthanide-based endohedral metallofullerenes. They are sphere-like shape carbon molecules (fullerenes) with embedded magnetic lanthanide elements inside, suitable for spintronic and high dense-data storage applications. In this work, I studied two families of endohedral metallofullerenes (di-lanthanides and Dy-oxides) which showed great versatility in the magnetic behavior, depending on the type of the encapsulated cluster, and the size and shape of the carbon cage.:Magnetic studies on lanthanide dimetallofullerenes Gd2@C80(CH2Ph) and Gd2@C79N Tb2@C80(CH2Ph) and Tb2@C79N TbY@C80(CH2Ph) Ho2@C80(CH2Ph) Er2@C80(CH2Ph) Magnetic studies on Dy-oxide clusterfullerenes Dy2O@C72 Dy2O@C74 Dy2O@C82 (three isomers) info:eu-repo/classification/ddc/530 ddc:530
270	THEORETICAL STUDIES OF NONUNIFORM ORIENTATIONAL ORDER IN LIQUID CRYSTALS AND ACTIVE PARTICLES Duzgun, Ayhan January 2018 (has links) No description available. Physics

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