Controle de tensão na carga para motor/gerador a relutância variável de três fases

Silveira, Augusto Wohlgemuth Fleury Veloso da

24 February 2012

Fundação de Amparo a Pesquisa do Estado de Minas Gerais / The subject of this work is to present a switched reluctance machine (SRM) driver capable to control the machine as a motor/generator, allowing the transition between the modes of operation while the machine is running. Six load voltage control strategies developed to be applied to a switched reluctance generator was performed, being that the strategies AV2, TBV, Hi and AMV was developed in this work. A SRM simulation able to represent the machine as a motor/generator was implemented and the results were presented. The load voltage strategies showed in this work was tested through simulations and the results indicate that the strategy called AV2 was the best one, providing a better utilization of the mechanical energy from the primary source. A prototype was assembled and the experimental results showed that the machine operating as a motor/generator operate properly and all the load voltage strategies developed to switched reluctance generator kept the voltage on the load near to the reference value confirming the functionality of the strategies. / Este trabalho tem como objetivo apresentar um acionamento capaz de controlar a máquina de relutância variável (MRV) como motor e como gerador, permitindo a transição de modos de operação com a máquina girando. Seis técnicas de controle de tensão na carga da máquina operando como gerador foram implementadas, sendo que as estratégias AV2, TBV, Hi e AMV foram desenvolvidas neste trabalho. Uma simulação da MRV capaz de representar a operação da máquina como motor/gerador foi desenvolvida e os resultados foram apresentados. As estratégias de controle de tensão na carga foram testadas através de simulação. Comparações entre as mesmas demonstraram que a estratégia AV2 é a que proporciona maior geração de energia elétrica, demonstrando a importância de se adicionar uma etapa de roda livre ao controle do GRV com malha fechada de tensão na carga. Um protótipo foi construído no laboratório utilizando DSP e resultados experimentais da máquina operando como motor/gerador, assim como resultados do GRV controlado pelas estratégias de controle de tensão na carga foram apresentados e discutidos. / Doutor em Ciências

Máquina à relutância variável

Controle de tensão na carga

Conversor halfbridge

Processador digital de sinais

Motor/gerador

Motores de relutância

Switched reluctance machine

Load voltage control

Half-bridge converter

Digital signal processor

Motor/generator

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Gerador a relutância variável em conexão com a rede elétrica para injeção de potência ativa

Viajante, Ghunter Paulo

27 September 2013

This work shows a contribution to the study of the Switched Reluctance Machine driven as a generator to connecting in the grid to inject active power. The main objective is show the Switched Reluctance Generator behavior under various operating conditions, as well as the development of an electronic converter to connect it to the low voltage grid. Thus, it presents a mathematical model for the Switching Reluctance Generator which includes the magnetic circuit saturation and a computational model for analyzing steady state and transient. Also it is presented a strategy of generated voltage control by the magnetization angle variation acting only in the top switch of the Asymmetrical Half Bridge converter. An intermediate stage was added in the switching control strategy to reduce the energy amount provided by the excitation source and get better utilization of electromechanical conversion. A detailed description of the control system equations of the DC-AC stage, PLL algorithm and design of injected current compensator are presented and discussed. Finally, it was constructed in laboratory a experimental platform for verification of the theoretical and simulation. / Este trabalho apresenta uma contribuição ao estudo da Máquina a Relutância Variável acionada como gerador para conexão com rede elétrica e injeção de potência ativa. O objetivo principal é apresentar o comportamento do Gerador a Relutância Variável sob diversas condições de operação, bem como o desenvolvimento de um conversor eletrônico para a sua conexão a rede elétrica de baixa tensão. Assim, é apresentado um modelo matemático para o Gerador a Relutância Variável que contempla a saturação do circuito magnético e um modelo computacional para análise em regime permanente e transitório. Também é apresentada uma estratégia de controle da tensão gerada através da variação do ângulo de magnetização atuando apenas nas chaves superiores do conversor assimétrico Half Bridge. Uma etapa intermediária no chaveamento foi acrescentada à estratégia de controle para diminuir a quantidade de energia fornecida pela fonte de excitação e obter melhor aproveitamento da conversão eletromecânica. Uma descrição detalhada do equacionamento do sistema de controle do estágio CC-CA, do algoritmo de PLL e projeto do compensador da corrente injetada são apresentados e discutidos. Por fim, construiu-se uma plataforma experimental em laboratório para a comprovação dos estudos teóricos e de simulação. / Doutor em Ciências

Gerador à relutância variável

Conexão com a rede elétrica

Compensador P+RES.

Geradores elétricos

Mecanismo de distribuição elétrica

Redes elétricas

Switched reluctance renerator

Grid connect

P+RES Compensator

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Contribuições ao projeto do motor linear a relutância variável / Contributions to the design of linear variable reluctance moto

Miranda, Breno Brito

18 July 2017

O motor linear à relutância variável (MLRV) é uma máquina elétrica alimentada em corrente contínua, com fases excitadas numa sequência determinada. Caracterizado por operar numa ampla faixa de variação de velocidade, é utilizado em aplicações lineares que convertem energia elétrica em força e movimento de translação. A necessidade de dispositivos comutadores de corrente e um sistema de controle requer boa estimativa do perfil de indutância do motor. No entanto, uma vez que o maior entreferro dificulta o cálculo analítico, este perfil deve ser obtido através de métodos numéricos. Neste contexto, este trabalho apresenta um motor linear do tipo fluxo longitudinal de 4 fases, destinado a mover um sistema de translação deslizante de abertura e fechamento. A robustez, a simplicidade de construção e a potência reduzida foram decisivos na escolha do tipo de máquina. A análise via elementos finitos (AEF) é aplicada a fim de determinar o desempenho, qualificado pela auto-indutância das bobinas de fase e pela capacidade de produção da força de propulsão. A AEF também é utilizada na avaliação do fator de ondulação da força (force ripple), altamente presente neste tipo de motor, além da produção de vibração e ruído acústico, decorrentes do mesmo. / The linear variable reluctance motor (LVRM) is an electric machine fed by direct current with excited phases in a given sequence. Characterized by operating in a wide range of speed variation, it is used in linear applications that converts electric energy into force and translation movement. The need for current switching devices and a control system requires a good estimate of the motor’s inductance profile. However, since the larger air gap makes analytical calculation difficult, this profile must be obtained by numerical methods. In this context, this work presents a linear motor of the 4 phase transverse flow type designed to move a sliding translation system of opening and closing. Robustness, simplicity of construction and reduced power are decisive in the choice of machine type. The finite element analysis (FEA) is applied in order to determine the performance, qualified by the self-inductance of phase coils and the propulsion force production capacity. The FEA is also used in the evaluation of the force ripple factor, highly present in this type of motor, besides the production of vibration and acoustic noise arising from ripple factor. / Dissertação (Mestrado)

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Engenharia Elétrica

Motores elétricos

Semicondutores

Correntes elétricas

Motores a relutância variável

Máquinas lineares

Método dos elementos finitos

Fator de ondulação da força

FEMM

Variable reluctance motors

Linear machines

Finite element method

Force ripple factor

Estudo de técnicas de controle de máquinas de relutância chaveada para aplicações em sistemas de acionamentos com velocidade variável

Almeida, Lucas Alves de

27 February 2018

Submitted by Renata Lopes (renatasil82@gmail.com) on 2018-05-25T12:16:21Z No. of bitstreams: 1 lucasalvesdealmeida.pdf: 7514122 bytes, checksum: a0029ec07180541f754e98112ec47b6b (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2018-06-14T11:52:17Z (GMT) No. of bitstreams: 1 lucasalvesdealmeida.pdf: 7514122 bytes, checksum: a0029ec07180541f754e98112ec47b6b (MD5) / Made available in DSpace on 2018-06-14T11:52:17Z (GMT). No. of bitstreams: 1 lucasalvesdealmeida.pdf: 7514122 bytes, checksum: a0029ec07180541f754e98112ec47b6b (MD5) Previous issue date: 2018-02-27 / Sistemas eletromecânicos são de grande importância atualmente, e a procura por maior eficiência e desempenho aliados a um menor custo justificam a busca por alternativas tanto em topologia quanto no controle e acionamento de tais sistemas. A máquina de relutância chaveada é capaz de cumprir estes requisitos e tem despertado o interesse de pesquisadores e empresas nos últimos anos, emergindo como uma alternativa viável em diversas aplicações. Porém, esta máquina possui características singulares. Por conta de sua estrutura duplamente saliente, seu funcionamento correto depende da aplicação de pulsos de corrente por determinados intervalos de tempo, e na sequência correta, seus parâmetros são variáveis no tempo, apresentando um comportamento com características não-lineares. Tais particularidades fazem com que seja difícil controlar o torque destas máquinas, as quais possuem a tendência de apresentar altas oscilações durante a mudança da excitação de cada fase. Este trabalho tem por objetivo contribuir com o estudo da modelagem e do acionamento de uma máquina de relutância chaveada. É apresentada sua modelagem matemática e um modelo de simulação que leva em consideração as não linearidades existentes. Em seguida são apresentadas técnicas de controle de corrente que incluem um regulador de histerese, um controlador PI e um controlador por modos deslizantes. Também é utilizado um método capaz de determinar o momento em que cada fase deve ser acionada, baseado no ângulo do rotor, e uma técnica de variação dos ângulos de acionamento de maneira dinâmica, usados em conjunto com os controladores propostos. O trabalho também caracteriza e apresenta as funções de divisão de torque como uma maneira de reduzir drasticamente as oscilações de torque. São apresentadas as operações como motor e como gerador, bem como um exemplo de aplicação de modo a ilustrar ambos os modos de operação. / Electromechanical systems have a huge relevance nowadays, and seeking for improvements in efficiency and performance at the lowest cost make valid to identify topological and control alternatives of these systems. The switched reluctance machine is capable to fulfill such requirements and emerges as an interesting field of research. Academics and industrial works shows that it is a promising alternative in several applications. However, this machine presents unique characteristics, like the doubly salient structure, the necessity to apply phase currents in a sequence determined by the stator/rotor pole ratio, its time variantparameters,andthestrongnonlinearcharacteristics. Suchsingularitiesmaketorque control hard, as it tends to present high ripples and makes a lot of noise. This thesis aims to contribute on switched reluctance machine modeling and drive system. A mathematical model is presented, and also a simulation model that accounts for nonlinearities, making possible to simulate the machine accurately in a computational environment. A hysteresis regulator, a PI controller and a sliding mode controller are designed and simulated. An algorithm to determine when each phase should be excited based on rotor angle is used, and a technique to change such firing angles dynamically is developed that can be used along with current control methods presented. The work also defines and presents torque sharing functions as a way to greatly reduce torque ripple. Motor and generator operation are contemplated, and both modes are illustrated in an application example.

CNPQ::CIENCIAS EXATAS E DA TERRA

Máquina de relutância chaveada

Acionamentos de velocdade ajustável

Controle de corrente

Controle de histerese

Controle PI

Controle em modos deslizantes

Switched reluctance machine

Adjustable speed drives

Current control

Hysteresis regulator

PI controller

Sliding mode control

Fault-tolerance and noise and vibration aspects of electrical drives: Application to wind turbines and electrical vehicle traction

Mollet, Yves

06 November 2017

The awareness of the human responsibility in global warming has led to various private and public initiatives to reduce the emission of greenhouse gases, up to international level. In this context the development of renewable technologies in two sectors having an important ecological footprint, i.e. production of electricity and transportation, is targeted.In the firstly mentioned sector, the progression of wind energy is at present the most rapid among all renewable energies. But wind turbines still suffer from a global lack of reliability and accessibility compared to classical power plants, leading to potentially important production losses and repair costs. The first part of the present work focuses on the improvement of the electrical chain reliability by the combination of an estimator and a fault-detection algorithm to achieve sensor-fault tolerance, taking benefit from the already available measurement redundancies on doubly-fed-induction-machine (DFIG) drives.Estimators and sensor-fault detection and isolation (FDI) in DFIGs have been the object of many research papers. However, most of them only consider one unique type of measurement and only a few works consider magnetic saturation. A new combination of a closed-loop observer with a cumulative-sum-based FDI technique, considering magnetic saturation and using limited computational resources is proposed here to estimate electromagnetic torque, rotor currents and position for sensor-fault detection and tolerance. This algorithm is then validated in steady state and in case of moderate transients, unbalanced conditions and misestimation of DFIG parameters. The estimator can also start on the fly during the start-up process of the generator.In the transportation sector, new hybrid and full-electric vehicles start to be visible on the roads, but still need important technological improvements in terms of autonomy, performances, but also produced noise and vibrations. The objectives of the second part of this doctoral thesis are related to this last challenge and consist of the experimental investigation of noise, vibration and harshness (NVH) aspects of an 8/6 switched-reluctance machine (SRM) designed for an electrical vehicle (EV).The NVH issues of SRMs, limiting their usage in automotive and other domains, have been the subject of various papers. However, most of them focus on modal analysis or detailed phenomena, while a global evaluation of NVH aspects of SRMs in normal working conditions is rarely made, as well as the use of reproducible sound metrics. A global and relatively fast experimental method to assess the evolution of noise and vibration is proposed. Tests are performed in transient regime, using continuously varying working conditions when possible, for the excitation of a large band of frequencies. The resulting current, radial vibration and acoustic noise are presented as spectrograms for an easy distinction of affected and unaffected frequencies and compared with the associated loudness and sharpness.Furthermore, the implementation of a new faster-sampled current-hysteresis controller has allowed to improve the quality of the control and of the acoustic noise by reducing the current-ripple amplitude and the excitation of resonances. The various tests show that the switching frequency has to be high enough to avoid exciting the ovalization mode of the SRM, but not too high to avoid producing a too sharp noise. The ripple amplitude also has to be considered to limit the loudness. Therefore, soft chopping, or a reduced DC-bus voltage at low speeds, has to be preferred with a relative small hysteresis bandwidth. Finally, the case of an open-phase fault has been investigated showing amplified even current orders in the vibration and acoustic-noise plots. / La prise de conscience de la responsabilité humaine dans le réchauffement climatique est à la source de nombreuses initiatives publiques et privées parfois internationales pour réduire les émissions de gaz à effet de serre. Dans ce contexte, le développement de technologies durables dans deux secteurs à forte empreinte écologique est visé: la production d'énergie électrique et les transports. Dans le premier secteur, la progression de l'éolien est à présent la plus rapide parmi toutes les énergies renouvelables. Cependant, les éoliennes souffrent d'un manque global de fiabilité et d'accessibilité par rapport aux centrales électriques classiques, ce qui conduit potentiellement à des pertes de production et des coûts de réparation importants. La première partie de ce travail se focalise sur l'amélioration de la chaîne électrique en la rendant tolérante aux défauts de capteurs au moyen de la combinaison d'un estimateur et d'un algorithme de détection de défauts, tirant avantage de la redondance de mesures déjà présente sur les entraînements à machines asynchrones à double alimentation (MADA). Les estimateurs et la détection et l'isolation de défauts de capteurs sur les MADA a fait l'objet de nombreuses publications scientifiques. Cependant, la plupart d'entre elles considèrent un seul type de mesure et peu de travaux prennent en compte la saturation magnétique. Une nouvelle combinaison d'un observateur et d'un algorithme de détection de défauts de type ‘CUSUM', considérant la saturation magnétique et nécessitant une puissance de calcul limitée, est proposée dans cette thèse pour l'estimation du couple électromagnétique, des courants et de la position rotoriques en vue d'obtenir la tolérance aux défauts de capteurs. Cet algorithme est validé en régime permanent et cas de transitoires modérés, de tensions du réseau déséquilibrées et d'erreurs d'estimation des paramètres de laMADA. L'estimateur est aussi capable de démarrer seul lors du démarrage de la génératrice. Dans le secteur des transports, des véhicules hybrides et électriques commencent à être visibles sur les routes, malgré que des progrès technologiques importants en termes d'autonomie, de performances, mais aussi de bruits et vibrations soient encore nécessaires pour une utilisation plus intensive. L'objectif de la deuxième partie de cette thèse se rapporte à ce dernier défi et consiste à analyser les aspects acoustiques et vibratoires d'une machine à réluctance variable 8/6 conçue pour propulser un véhicule électrique. Ces problèmes acoustiques et vibratoires, qui limitent notamment l'usage de telles machines dans des applications de propulsion, ont été l'objet de divers articles scientifiques. Cependant, la plupart d'entre eux sont focalisés sur des analyses modales ou de phénomènes particuliers, alors qu'une évaluation globale des problèmes de bruit et de vibration des machines à réluctance variable en conditions normales de fonctionnement est rarement proposée, de même que l'utilisation de critères de qualité sonore. Une méthode expérimentale globale et relativement rapide pour évaluer l'évolution du bruit et des vibrations est proposée dans ce travail. Les essais sont réalisés en régime transitoire pour exciter une large bande de fréquences et en faisant varier continuellement, quand cela est possible, les conditions de fonctionnement. Les courants, vibrations radiales et bruits acoustiques résultants sont présentés sous formes de cartographies couleur pour une distinction aisée des fréquences affectées et non-affectées et comparés aux niveaux calculés de bruyance et d'acuité correspondants. Par ailleurs, la mise en place d'un nouveau régulateur à hystérèse en courant à plus grande fréquence d'échantillonnage a permis d'améliorer la qualité de la commande et du bruit acoustique associé en réduisant l'amplitude des oscillations de courant et l'excitation des fréquences de résonance. Les essais montrent que la fréquence de commutation doit être suffisamment élevée pour éviter l'excitation du mode d'ovalisation de la machine, mais pas trop pour éviter une trop grande acuité du son produit. L'amplitude des oscillations doit aussi être considérée pour limiter la bruyance. En conséquence, une commande en ‘soft chopping', ou une tension réduite du bus continu à basse vitesse, doit être combinée à une bande d'hystérèse relativement faible. Enfin, le cas d'un défaut de phase ouverte a été étudié et a montré une amplification des ordres pairs du courant dans les spectres vibratoires et acoustiques. / De bewustwording van de menselijke verantwoordelijkheid in de opwarming van de aarde heeft tot verschillende private en publieke initiatieven geleid om de uitstoot van broeikasgassen te verminderen. In deze context is de ontwikkeling van hernieuwbare technologieën hoofdzakelijk gericht op twee sectoren met een belangrijke ecologische impact: elektriciteitsproductie en transport.In de eerste sector ontwikkelt windenergie zich op dit moment sneller dan alle andere hernieuwbare energieën. Maar windturbines lijden nog steeds aan een gebrek aan betrouwbaarheid en toegankelijkheid, en dus aan potentieel hogere productieverliezen en herstelkosten, als ze met klassieke krachtcentrales worden vergeleken. In het eerste deel van deze doctoraatsthesis wordt op de verbetering van de elektrische keten geconcentreerd door de combinatie van een schatter en een foutdetectie- en -isolatiealgoritme (FDI-algoritme) om sensorfouttolerantie te verkrijgen dankzij de reeds aanwezige meetovertolligheid op dubbelgevoede inductiemachine (DFIG) aandrijvingen.Schatters en sensor-FDI-algoritmen zijn het onderwerp van vele wetenschappelijke artikelen geweest. Meestal wordt maar één sensortype beschouwd en met de magnetische verzadiging wordt niet vaak rekening gehouden. Een nieuwe combinatie van een schatter met gesloten terugkoppeling en een FDI-techniek gebaseerd op het ‘cumulative-sum' principe is voorgesteld. Zo kan het elektromagnetische koppel, de rotorstromen en positie worden geschat voor sensor FDI en fouttolerantie met beperkte rekenkosten en zonder de magnetische verzadering te verwaarlozen. Het algoritme wordt in stabiele toestand gevalideerd, maar ook in het geval van gematigde transiënte situaties, onevenwichtige netwerkomstandigheden en een verkeerde schatting van DFIG parameters. Het kan ook vanzelf starten tijdens de startprocedure van de generator.In de vervoersector beginnen hybride en elektrische voertuigen op de wegen te rijden. Maar vooreen intensiever gebruik van zo'n wagens zijn er nog technologische verbeteringen nodig met betrekking tot autonomie, prestaties en ook geluid en trillingen (NVH). Het tweede deel van de thesis betreft die laatste uitdaging en bestaat uit het experimentele onderzoek van geluid en trillingen op een 8/6 variabelereluctantiemachine (SRM) ontwikkeld voor elektrische voertuigen.De NVH-problemen van SRM's beperken hun gebruik in automobiele en andere toepassingen enonderzoek wordt erover voortgezet. Vele wetenschappelijke artikelen focussen toch op modale analyse of gedetailleerde fenomenen terwijl een globale evaluatie van NVH aspecten in SRM's in gewone operatiecondities nauwelijks wordt gemaakt. Hetzelfde geldt voor het gebruik van reproduceerbare geluidsmetrieken. Een globale en vrij vlugge experimentele methode is hier voorgesteld om het NVH gedrag te schatten. Testen worden in transiënte situaties uitgevoerd om een brede frequentieband te exciteren, indien mogelijk met voortdurend variërende condities. De gemeten fasestroom, trilling en geluid worden als kleurmappen geplot om het verschil tussen beïnvloede en niet geaffecteerde frequenties te vergemakkelijken en met de berekende akoestische luidheid en scherpte vergeleken.Bovendien heeft de implementatie van een sneller bemonsterd stroomhysteresisregelaar geleid tot een verbetering van de regulatie- en akoestische kwaliteit door de amplitude van de stroomrimpeling en de excitatie van resonantiefrequenties te verminderen. De testresultaten tonen dat de schakelfrequentie voldoende hoog moet zijn om de excitatie van de ovale vervormingsmode te vermijden, maar niet te hoog om de scherpte van het geluid te beperken. De amplitude van de rimpel beïnvloedt ook de luidheid en daarvoor moet in aanmerking worden genomen. Bijgevolg zou ‘soft chopping'mode, of een lagere spanning op de DC-bus bij lage toerentallen, met een relatief klein hysteresisband beter worden gebruikt. Uiteindelijk wordt het geval van een openfasefout bestudeerd en onthult versterkte gelijke frequentievolgorden in de trilling- en geluidplots. / Doctorat en Sciences de l'ingénieur et technologie / info:eu-repo/semantics/nonPublished

Machines moteurs électriques

Electrotechnique générale

Eoliennes

Acoustique

Fault tolerance

Fault detection and isolation

Sensorless control

Wind energy generation

Switched-reluctance machine

Noise & vibration

Spectrogram

Doubly-fed induction generator

Electrical vehicle

Switched reluctance motors for electric vehicle propulsion: optimal machine design and control / Machines à réluctance variable utilisées pour la propulsion des véhicules électriques: conception et contrôle optimal

Pop, Adrian-Cornel

21 September 2012

Abstract<p><p>1.\ / Doctorat en Sciences de l'ingénieur / info:eu-repo/semantics/nonPublished

Sciences de l'ingénieur

Electricité

Electric propulsion

Propulsion électrique

voiture électrique

switched reluctance machine

electromagnetic modeling

thermal modeling

electric vehicles

modèle thermique

Automated Production Technologies and Measurement Systems for Ferrite Magnetized Linear Generators

Kamf, Tobias

January 2017

The interest in breaking the historical dependence on fossil energy and begin moving towards more renewable energy sources is rising worldwide. This is largely due to uncertainties in the future supply of fossil fuels and the rising concerns about humanity’s role in the currently ongoing climate changes. One renewable energy source is ocean waves and Uppsala University has since the early 2000s been performing active research in this area. The Uppsala wave energy concept is centered on developing linear generators coupled to point absorbing buoys, with the generator situated on the seabed and connected to the buoy on the sea surface via a steel wire. The motion of the buoy then transfers energy to the generator, where it is converted into electricity and sent to shore for delivery into the electrical grid. This thesis will mainly focus on the development and evaluation of technologies used to automate the manufacturing of the translator, a central part of the linear generator, using industrial robotics. The translator is a 3 m high and 0.8 m wide three sided structure with an aluminum pipe at its center. The structure consists of alternating layers of steel plates (pole-shoes) and ferrite magnets, with a total of 72 layers per side. To perform experiments on translator assembly and production, a robot cell (centered on an IRB6650S industrial robot) complimented with relevant tools, equipment and security measures, has been designed and constructed. The mounting of the pole-shoes on the central pipe, using the industrial robot, proved to be the most challenging task to solve. However, by implementing a precise work-piece orientation calibration system, combined with selective compliance robot tools, the task could be performed with mounting speeds of up to 50 mm/s. Although progress has been made, much work still remains before fully automated translator assembly is a reality. A secondary topic of this thesis is the development of stand-alone measurement systems to be used in the linear generator, once it has been deployed on the seabed. The main requirements of such a measurement system is robustness, resistance to electrical noise, and power efficiency. If possible the system should also be portable and easy to use. This was solved by developing a custom measurement circuit, based on industry standard 4–20 mA current signals, combined with a portable submersible logging unit. The latest iteration of the system is small enough to be deployed and retrieved by one person, and can collect data for 10 weeks before running out of batteries. Future work in this area should focus on increasing the usability of the system. The third and final topic of this thesis is a short discussion of an engineering approach to kinetic energy storage, in the form of high-speed composite flywheels, and the design of two different prototypes of such flywheels. Both designs gave important insights to the research group, but a few crucial design faults unfortunately made it impossible to evaluate the full potential of the two designs.

industrial robotics

automation

self-sensing

calibration

ferrite

linear generator

wave energy

offshore

measurements

electronics

kinetic energy storage

reluctance motor

Robotics

Robotteknik och automation

Annan elektroteknik och elektronik

Conception de systèmes d'alimentation sans contact pour la traction ferroviaire / Design of contactless supply system for railway traction.

Sibué, Jean-Romain

13 December 2011

Les travaux présentés dans cette thèse portent sur la conception et le dimensionnement de composant magnétique dédié au transfert d'énergie sans contact pour des applications ferroviaires de type tramway. Cette famille de composant présente un comportement fortement inductif. Un convertisseur à double fréquence de résonance est utilisé pour l'alimenter et compenser l'énergie réactive du coupleur. Pour parvenir à dimensionner ce composant et son convertisseur associé, un outil d'aide au dimensionnement a été mis au point. Celui-ci est basé sur des modèles analytiques du composant magnétique et de la structure d'électronique de puissance. Une fois le dimensionnement réalisé, une étude des pertes, dans les bobinages et les circuits magnétiques, est réalisée par simulation numérique en utilisant la méthode d'homogénéisation (représentation macroscopique des éléments avec des propriétés électromagnétiques complexes). Puis, la modélisation du comportement thermique du système est présentée afin de garantir la température de fonctionnement désirée. Afin de valider l'approche de dimensionnement et les outils mis en place, des expérimentations ont été menées sur des prototypes de 1,6 et 100 kW. Les résultats obtenus ont montré la précision et la pertinence de l'approche théorique. Cette étude valide la faisabilité de ce type de système forte puissance. / The works presented in this thesis deal with the design and the sizing of magnetic component dedicated to contactless energy transfer for railway application like tramway. This family of component presents a strongly inductive behavior. A double resonance converter is used to supply and compensate reactive energy of transformer. In order to design this component and its associated converter, a design tool has been implemented. This one is based on analytical models of magnetic component and power electronic converter. One time designing realized, a study of losses, in windings and in magnetic cores, is realized by numerical simulation by using homogenization method (macroscopic representation of elements with electromagnetic complex properties). Then, the establishment of a model of thermal behavior of system is presented in order to guarantee desired working temperature. In order to check designing approach and tools, experimentations have been performed on prototypes of 1.6 and 100 kW. Obtained results show the accuracy and relevance of theoretical approach. Moreover, this study confirms the feasibility of this kind of high power system.

Transfert d’énergie sans contact

Transformateur à grand entrefer

Dimensionnement

Réseau de réluctances

Convertisseur à double résonance

Modélisation analytique

Contactless energy transfer

Transformer with large air gap

Designing

Reluctance network

Double resonant converter

Analytical modeling

Développement d’un outil de génération automatique des réseaux de réluctances pour la modélisation de dispositifs électromécaniques / Development of a tool for automatic generation of reluctance networks for the modeling of electromechanical devices

Asfirane, Salim

04 December 2019

Dans un cadre de modélisation des machines électriques, la méthode qui connaît une grande popularité, car réputée pour la qualité de ses résultats est la méthode des éléments finis. Cependant, les temps de calcul deviennent importants lorsque les modèles éléments finis sont associés à une démarche d’optimisation et de prédimensionnement dans le cadre d’un cahier des charges complexe. Les méthodes de modélisation bien souvent utilisées comme alternative aux éléments finis sont les approches de modélisation par constantes localisées. Ces dernières se prêtent bien aux différentes physiques impliquées dans le fonctionnement des machines électriques, i.e. électromagnétique, mécanique et thermique. Ainsi, les stratégies de conception optimisée d’une machine électrique utilisent ces modèles pour déterminer les propriétés et performances de cette dernière dans différentes conditions de fonctionnement. Cependant, la mise en place de ce type de modèles nécessite un temps de développement important par manque d’outils dédiés tels que ceux existants pour les éléments finis. Dans le contexte électromagnétique, les travaux de cette thèse présentent une contribution à l’approche de modélisation par réseaux de réluctances par le développement d’outils permettant leurs générations automatiques. Cette approche est intégrée dans un outil permettant le traitement automatisé d'une géométrie, fournissant un modèle précis dans un délai plus court que celui nécessaire à la construction d'un modèle dédié. L’outil, intégralement développé sur MATLAB®, a été appelé MRNsoftware (pour Mesh-based Reluctance Network Software). Ce mémoire s’organise en quatre parties. Le premier chapitre est consacré à un état de l’art détaillé sur les méthodes de modélisation par réseaux de réluctances. Dans la deuxième partie, nous abordons les méthodologies mises en place en se basant sur un maillage de l’espace d'étude par des blocs élémentaires bidirectionnels et dans le cadre d’un maillage conforme. Le maillage non conforme fera l’objet du troisième chapitre. Une interpolation des potentiels se révélera utile pour connecter les différentes branches des interfaces de non-conformité dans le maillage de l’espace d’étude. Différents découpages d’une même structure sont testés et la précision ainsi que le temps d’évaluation des modèles en réseaux de réluctances sont comparés aux modèles de référence réalisés par éléments finis. Le quatrième chapitre présente en premier lieu l’interface graphique de l’outil. Par la suite, les approches de modélisation développées seront utilisées pour réaliser les modèles de la machine linéaire à aimants permanents et la machine linéaire à commutation de flux à excitation bobinée. Ces approches de modélisation sont le fruit de la collaboration entre les laboratoires SATIE et GREAH et s’inscrivent dans la problématique générale de développement d’outils de modélisation multiphysiques de dispositifs électromagnétiques en vue de leurs dimensionnements optimisés. / In the field of electrical machine modeling, the method that is experiencing great popularity as renowned for the quality of its results is the finite element method. However, computation time becomes important when the finite element models are associated with an optimization and predesign process as part of a complex technical specification sheet. The alternate modeling solution is the lumped parameter models approach. The latter is well suited for the individual physical domains involved in the operation of electrical machines, namely electromagnetic, mechanical and thermal. The latter is well suited for the individual physical domains involved in the operation of electrical machines, namely electromagnetic, mechanical and thermal. Thus, electric machine design routines have been used to determine the properties and performance of the latter under different operating conditions. However, the implementation of these modeling approaches requires significant development time for lack of dedicated tools such as those existing for the finite element method. In the electromagnetic context, the work of this thesis presents a contribution to the reluctance network modeling approach by developing tools allowing their automatic generation. This approach is integrated into a software tool allowing the automated processing of a geometry, providing a precise model in a shorter time than that required for the construction of a dedicated model. The tool, fully developed on MATLAB®, has been called MRNsoftware (for Mesh-based Reluctance Network Software). This dissertation contains four chapters. The first chapter is devoted to a detailed state of the art on reluctance network modeling methods. In the second chapter, we discuss the methodologies implemented based on a conformal mesh of the study space by bidirectional elementary blocks. The non-conformal mesh will be the subject of the third chapter. Magnetic scalar potential interpolation will prove useful to connect the different branches of the block elements at the edge of the non-conformal interfaces. Different mesh patterns of the same structure are tested and the accuracy as well as the evaluation time of the reluctance network models are compared with the finite element reference models. The fourth chapter presents, at first, the graphical interface of the tool. Subsequently, the developed modeling techniques are used to realize the models of the permanent magnet linear machine and the linear wound excitation linear machine. These modeling approaches are the result of the cooperation between SATIE and GREAH laboratories and are part of the general endeavor of developing multiphysics modeling tools for the optimal sizing of electromagnetic devices.

Efficacité énergétique

Machine à commutation de flux

Machines électriques

Modèles à paramètres localisés

Modélisation par éléments finis

Reluctance/Permeance network modeling

Energy efficiency

Flux switching machine

Electrical machines

Lumped parameters models

Finite element modeling

Analýza ztrát v elektrických strojích při nestandardních podmínkách / Losses Analysis in Electric Machines under Special Conditions

Bulín, Tomáš

January 2019

This thesis deals with the analysis of magnetic losses in electrical machines and the possibilities of their measurement. Magnetically soft and hard materials are very prone to changing magnetic properties. They can be changed simply by changing the temperature of the material or different stresses induced in the material, resulting in different results. These changes are important to keep in mind when an electric machine is being designed. The original parameters of the affected materials can be restored by annealing or grinding. These methods release the induced stresses within the material. Due to these effects, it is also important to know how to measure magnetic parameters. Each way has its own specifics and has a certain error of the measurement. When the machines for higher efficiency, rpm or higher temperatures are designed, it is advisable to know how their magnetic properties changed. This thesis deals with the properties of different materials, their measurements and finally simulation of the chosen electric machine with the application of the measured results.