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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Design of a Permanent Magnet Synchronous Generator with Alnico Magnets

Lopez Gomez Partida, Fausto January 2019 (has links)
Following the trends to diminish the fossil fuel energy production new technologies known for their renewable sources have become a signficant option for helping combat climate change and handle the current oil prices. These new technologies base their power production on already established physical principles that convert mechanical power to electrical power. Generators are the fundamental piece of machinery for electricity production. Among the various types of generators that exist, permanent magnet synchronous generators (PMSGs) are commonly used for renewable electricity production. At present, the most used magnets for PMSGs are alloys of neodymium, iron, and boron which form a tetragonal crystalline structure known as Neodymium magnets (NdFeB). These types of magnets contain rare-earth materials, which makes them highly non-sustainable materials. Research to find new magnet compositions to substitute rare earth magnets or to reduce the weight and increase the efficiency of PMSGs is currently being studied. One option is to use Alnico magnets. This thesis project explores this option. With the help of a finite element analysis (FEA) software (COMSOL Multiphysics), three types of Alnico grades 5, 8 and 9 were implemented in the rotor of a spoke type generator to study the load limits of the rotor magnets, and together with this observe the demagnetization and impact that it has on the power production of the generator, in two different scenarios: 1) When the generator is connected to a nominal load under normal conditions and 2) when the generator is connected to a nominal load after a short circuit (SC). The simulations provided an insight into the load limitations that the generator has by each type of Alnico studied. Alnico 9 showed to be the best candidate magnet from the three magnets implemented with less demagnetization and higher electrical power output, followed by Alnico 8, which presented a good electrical power output at the nominal load scenario. Regardless of the higher demagnetization of Alnico 5, it proved to be a better candidate than Alnico 8 at the SC scenario.
2

Análise de turbinas eólicas conectadas ao sistema elétrico equipadas com geradores síncronos a ímãs permanentes. / Analysis of wind turbines with permanent magnet generator in the power system.

Paez Prieto, Mauricio Andres 17 July 2014 (has links)
Este trabalho de mestrado está relacionado com a análise do comportamento dinâmico de turbinas eólicas equipadas com gerador síncrono com excitação a ímãs permanentes operando durante contingências na rede elétrica e com variação na velocidade do vento. Tal configuração tem muitas vantagens quando comparada com a configuração atualmente utilizada pelos principais fabricantes de turbinas eólicas de grande porte. A principal delas é devido ao fato de não utilizar caixas de engrenagens. Porém, o impacto na rede elétrica com a conexão de tal configuração deve ser minimizado melhorando as condições operativas no ponto de conexão da fazenda eólica. Desta forma, o projeto em questão visa investigar formas de diminuir os impactos negativos causados e melhorar a estabilidade do sistema, principalmente, no ponto de conexão à rede elétrica Portanto, o projeto de pesquisa deste mestrado está relacionado ao desenvolvimento de modelos computacionais que representem tal tecnologia, considerando os principais componentes e controles utilizando o software de simulação PSCAD. Também são incluídos novos métodos de controle e elementos adicionais que melhoram a confiabilidade e o nível de penetração de parques eólicos com geradores a ímãs permanentes. Ressalta-se que tais modelos não estão disponíveis de forma completa no software citado acima, portanto foram desenvolvidos partindo de modelos genéricos existentes. Todas as partes do modelo foram realizadas com elementos básicos acessíveis em qualquer programa de simulação, de modo que qualquer engenheiro ou pesquisador possa programar este mesmo modelo em qualquer software. Esta dissertação começa com uma breve descrição do modelo desenvolvido, incluindo o modelo aerodinâmico das turbinas eólicas, o controle do conversor do lado do gerador, o controle do conversor do lado da rede e o sistema de proteção do link de corrente contínua. Com o modelo desenvolvido, analisa-se a operação do gerador síncrono a imãs permanentes durante contingências na rede. A aplicação de um sistema avançado de armazenamento de energia e a possibilidade de suporte de frequência à rede elétrica também foram desenvolvidos e analisados. Considerando os resultados obtidos, podemos verificar que a conexão de parques eólicos equipados com geradores síncronos com excitação a ímãs permanentes pode trazer benefícios para a rede elétrica, quando o seu potencial de controle e de operação é utilizado. Mais detalhes podem ser verificados nos capítulos a seguir. / This master\'s project aims to study the behavior of wind turbines with Permanent Magnet Synchronous Generator, operating during contingencies and changes in wind speed. This configuration has many advantages compared with configurations currently used by leading manufacturers of large wind turbines. The main one is due to the fact of use smaller gearboxes or even gearless turbines. However, the impact on the electrical grid connection of this configuration should be minimized by improving the operating conditions at the connection point of the wind farm. Thus, this project aims to investigate ways to reduce the negative impacts and improve the system stability, especially at the grid connection point. This work employs the simulation software PSCAD for developing a computational model of this technology, considering the main components and controls. New control methods and additional features are included, for improving the reliability and the level of penetration of wind farms with permanent magnet generators in the power system. It is noteworthy that such models are not available in the simulation software PSCAD; therefore it was developed from existing generic models. All parts of the model were done with basic elements; as a result any engineer or researcher can program this same model in any software. This work begins with a brief description of the developed model, including: the aerodynamic model of the wind turbines, the control of the generator side converter, the control of the grid side converter and the protection system of the Link-DC. With this model, the operation of the permanent magnet synchronous generator was analyzed during network contingencies. The application of a sophisticated energy storage system for frequency support was also both developed and analyzed. The connection of wind turbines with Permanent Magnet Synchronous Generator has advantages when its potential for control and operation is used. More details can be checked in the following chapters.
3

Análise de turbinas eólicas conectadas ao sistema elétrico equipadas com geradores síncronos a ímãs permanentes. / Analysis of wind turbines with permanent magnet generator in the power system.

Mauricio Andres Paez Prieto 17 July 2014 (has links)
Este trabalho de mestrado está relacionado com a análise do comportamento dinâmico de turbinas eólicas equipadas com gerador síncrono com excitação a ímãs permanentes operando durante contingências na rede elétrica e com variação na velocidade do vento. Tal configuração tem muitas vantagens quando comparada com a configuração atualmente utilizada pelos principais fabricantes de turbinas eólicas de grande porte. A principal delas é devido ao fato de não utilizar caixas de engrenagens. Porém, o impacto na rede elétrica com a conexão de tal configuração deve ser minimizado melhorando as condições operativas no ponto de conexão da fazenda eólica. Desta forma, o projeto em questão visa investigar formas de diminuir os impactos negativos causados e melhorar a estabilidade do sistema, principalmente, no ponto de conexão à rede elétrica Portanto, o projeto de pesquisa deste mestrado está relacionado ao desenvolvimento de modelos computacionais que representem tal tecnologia, considerando os principais componentes e controles utilizando o software de simulação PSCAD. Também são incluídos novos métodos de controle e elementos adicionais que melhoram a confiabilidade e o nível de penetração de parques eólicos com geradores a ímãs permanentes. Ressalta-se que tais modelos não estão disponíveis de forma completa no software citado acima, portanto foram desenvolvidos partindo de modelos genéricos existentes. Todas as partes do modelo foram realizadas com elementos básicos acessíveis em qualquer programa de simulação, de modo que qualquer engenheiro ou pesquisador possa programar este mesmo modelo em qualquer software. Esta dissertação começa com uma breve descrição do modelo desenvolvido, incluindo o modelo aerodinâmico das turbinas eólicas, o controle do conversor do lado do gerador, o controle do conversor do lado da rede e o sistema de proteção do link de corrente contínua. Com o modelo desenvolvido, analisa-se a operação do gerador síncrono a imãs permanentes durante contingências na rede. A aplicação de um sistema avançado de armazenamento de energia e a possibilidade de suporte de frequência à rede elétrica também foram desenvolvidos e analisados. Considerando os resultados obtidos, podemos verificar que a conexão de parques eólicos equipados com geradores síncronos com excitação a ímãs permanentes pode trazer benefícios para a rede elétrica, quando o seu potencial de controle e de operação é utilizado. Mais detalhes podem ser verificados nos capítulos a seguir. / This master\'s project aims to study the behavior of wind turbines with Permanent Magnet Synchronous Generator, operating during contingencies and changes in wind speed. This configuration has many advantages compared with configurations currently used by leading manufacturers of large wind turbines. The main one is due to the fact of use smaller gearboxes or even gearless turbines. However, the impact on the electrical grid connection of this configuration should be minimized by improving the operating conditions at the connection point of the wind farm. Thus, this project aims to investigate ways to reduce the negative impacts and improve the system stability, especially at the grid connection point. This work employs the simulation software PSCAD for developing a computational model of this technology, considering the main components and controls. New control methods and additional features are included, for improving the reliability and the level of penetration of wind farms with permanent magnet generators in the power system. It is noteworthy that such models are not available in the simulation software PSCAD; therefore it was developed from existing generic models. All parts of the model were done with basic elements; as a result any engineer or researcher can program this same model in any software. This work begins with a brief description of the developed model, including: the aerodynamic model of the wind turbines, the control of the generator side converter, the control of the grid side converter and the protection system of the Link-DC. With this model, the operation of the permanent magnet synchronous generator was analyzed during network contingencies. The application of a sophisticated energy storage system for frequency support was also both developed and analyzed. The connection of wind turbines with Permanent Magnet Synchronous Generator has advantages when its potential for control and operation is used. More details can be checked in the following chapters.
4

External Reactive Power Compensation of Permanent Magnet Synchronous Generator

Singer, Amr 09 June 2011 (has links) (PDF)
This research work focuses on the reactive power compensation of the permanent magnet synchronous generator (PSG) in wind power plants. PSG feeds a fixed voltage dc grid through a rectifier bridge. In variable speed operation, the PSG will be able to build torque only in small speed range. This is due to the fixed magnet of the PSG. External reactive power compensation provides an attractive solution to overcome this problem. Different reactive power compensation configurations were examined. Statics synchronous series compensation and a shunt passive filter were chosen as a compensation method. Simulation and implementation of small wind power plant were performed. The wind power plant consists of the synchronous generator, inverter, rectifier, coupling transformers and shunt passive filter. The experimental results agree to the proposed theory and simulation results. / Der Schwerpunkt meiner Promotion ist die Blindleistungskompensation bei einem permanenterregten Synchrongenerator. Der Synchrongenerator speist das Gleichsspannungsnetz über ein Gleichrichter. In der Drehzahlvariablen Betriebsverhalten können Nachteile auftreten. Die Folge ist, dass bei konstanter Gleichspannung und fester Erregung durch die Permanenterregung nur ein sehr kleiner Drehzahlbereich mit vernünftiger Drehmomentausbeute bedienbar ist. Ein möglicher Ausweg wäre eine variable Kompensationsspannung. Verschiedene Kompensationsverfahren wurden untersucht. Ein Series Active Filter und ein Shunt Passive-Filter wurden als Blindleistungskompensation gewählt. Im Rahmen meiner Dissertation beschäftige ich mich mit dem Aufbau und der Simulation einer Windkraftanlage. Diese besteht aus einem permanenterregten Synchrongenerator, einem Wechselrichrter, einem Gleichrichter, drei Transformatoren und einem passiven Filter. Das Versuchsergebnis zeigt, dass die Theorie mit der Simulation übereinstimmt.
5

Μοντελοποίηση, έλεγχος και προσομοίωση αιολικού συστήματος με σύγχρονη γεννήτρια μόνιμου μαγνήτη / Modelling, control and simulation of a permanent magnet synchronous generator based wind power system

Μπιμπισίδης, Κωνσταντίνος 04 December 2012 (has links)
H αυξανόμενη ανάγκη για στροφή της παραγωγής ηλεκτρικής ενέργειας σε βιώσιμες και ανανεώσιμες πηγές έχει οδηγήσει στη ραγδαία ανάπτυξη της αιολικής ενέργειας και στη διείσδυσή της στην αγορά ενέργειας. Η παρούσα εργασία πραγματεύεται ένα αιολικό σύστημα παραγωγής ενέργειας βασισμένο σε σύγχρονη γεννήτρια μόνιμου μαγνήτη. Η συγκεκριμένη μηχανή αποτελεί τη νέα τάση στην αγορά εξ’ αιτίας των σημαντικών πλεονεκτημάτων που προσφέρει, ιδίως αυτό της δυνατότητας για απουσία κιβωτίου ταχυτήτων που οδηγεί το σύστημα σε αυξημένη απόδοση. Στην εργασία αυτή, θα γίνει μια παρουσίαση των χαρακτηριστικών των σύγχρονων αιολικών συστημάτων, θα γίνει η μοντελοποίηση της σύγχρονης γεννήτριας μόνιμου μαγνήτη και θα αναλυθεί η λογική του ελέγχου που ακολουθείται και στηρίζεται στο διανυσματικό έλεγχο προσανατολισμού σε πεδίο. Τέλος, θα γίνει η παρουσίαση και ο σχολιασμός των αποτελεσμάτων του μοντέλου, που αναπτύχθηκε σε περιβάλλον Matlab/Simulink, με την παράλληλη εξαγωγή συμπερασμάτων για την απόκρισή του. / The ongoing increase in electric power demand and the need for sustainable and renewable energy has led wind energy into high rates of growth and penetration to the energy markets. This thesis deals with a permanent magnet synchronous generator based wind power system. This type of machine has become a trend for the markets, due to its specific benefits and, especially, for the absence of gearbox that leads the whole system to higher efficiency. In this thesis, we will discuss the characteristics of a modern wind power system, then, the permanent magnet synchronous generator will be modelled, and the field oriented vector control strategy will be analyzed. Finally, we will present and discuss the outcome of the model that was built in the Matlab/Simulink programme, and we will come into certain conclusions about its response.
6

Projeto de aerogerador com segurança inerente para aplicação urbana

Verdum, Valdirene January 2013 (has links)
Esta dissertação propõe um projeto de aerogerador que é composto de uma turbina eólica de cinco pás, acoplada a um difusor e um gerador elétrico, com a finalidade de gerar energia elétrica com ventos de velocidade a partir de 4 m/s. São apresentados os pressupostos teóricos referentes ao estudo e dimensionamento aerodinâmico de uma pá, baseados principalmente na teoria do disco atuador e na teoria aerodinâmica, através do método de Betz. É feito o estudo de um difusor para ser acoplado à turbina com o objetivo de aumentar o aproveitamento energético. No final foram estudadas as principais topologias utilizadas para a geração eólica e é selecionado o gerador síncrono de ímãs permanentes. A seguir foram estudadas e dimensionadas as partes ativas do gerador (diretamente envolvidas na conversão eletromagnética). É projetado um aerogerador trifásico com enrolamentos distribuídos. O rotor, que é acoplado às pás, localiza-se internamente. Os ímãs permanentes de Neodímio-Boro-Ferro são montados na superfície do rotor. Conclui-se com a avaliação do aerogerador proposto com base nas simulações computacionais de seu desempenho. / This thesis proposes a wind generator design which combines a five blade wind turbine that is attached to a diffuser and an electrical generator. The design aims to produce electric power from 4 m/s starting wind speeds. It presents the theoretical study concerning the design and aerodynamics of a blade, commonly based on the theory of actuator disc and aerodynamic theory, through the method of Betz. A study was conducted on a diffuser to be coupled to the turbine in order to increase the energy utilization. In the end, the main topologies used for wind generation were presented, and the permanent magnet synchronous generator was selected. Next, all the active parts of the generator (directly involved in electromagnetic conversion) were studied and determined. An outer stator with three-phase distributed windings was designed. The rotor, which is coupled to the blades, is located internally. The Neodymium-Iron-Boron permanent magnets are mounted on the rotor surface. It is concluded with an evaluation of the proposed wind generator in accordance with its behavior computational simulations.
7

Projeto de aerogerador com segurança inerente para aplicação urbana

Verdum, Valdirene January 2013 (has links)
Esta dissertação propõe um projeto de aerogerador que é composto de uma turbina eólica de cinco pás, acoplada a um difusor e um gerador elétrico, com a finalidade de gerar energia elétrica com ventos de velocidade a partir de 4 m/s. São apresentados os pressupostos teóricos referentes ao estudo e dimensionamento aerodinâmico de uma pá, baseados principalmente na teoria do disco atuador e na teoria aerodinâmica, através do método de Betz. É feito o estudo de um difusor para ser acoplado à turbina com o objetivo de aumentar o aproveitamento energético. No final foram estudadas as principais topologias utilizadas para a geração eólica e é selecionado o gerador síncrono de ímãs permanentes. A seguir foram estudadas e dimensionadas as partes ativas do gerador (diretamente envolvidas na conversão eletromagnética). É projetado um aerogerador trifásico com enrolamentos distribuídos. O rotor, que é acoplado às pás, localiza-se internamente. Os ímãs permanentes de Neodímio-Boro-Ferro são montados na superfície do rotor. Conclui-se com a avaliação do aerogerador proposto com base nas simulações computacionais de seu desempenho. / This thesis proposes a wind generator design which combines a five blade wind turbine that is attached to a diffuser and an electrical generator. The design aims to produce electric power from 4 m/s starting wind speeds. It presents the theoretical study concerning the design and aerodynamics of a blade, commonly based on the theory of actuator disc and aerodynamic theory, through the method of Betz. A study was conducted on a diffuser to be coupled to the turbine in order to increase the energy utilization. In the end, the main topologies used for wind generation were presented, and the permanent magnet synchronous generator was selected. Next, all the active parts of the generator (directly involved in electromagnetic conversion) were studied and determined. An outer stator with three-phase distributed windings was designed. The rotor, which is coupled to the blades, is located internally. The Neodymium-Iron-Boron permanent magnets are mounted on the rotor surface. It is concluded with an evaluation of the proposed wind generator in accordance with its behavior computational simulations.
8

Projeto de aerogerador com segurança inerente para aplicação urbana

Verdum, Valdirene January 2013 (has links)
Esta dissertação propõe um projeto de aerogerador que é composto de uma turbina eólica de cinco pás, acoplada a um difusor e um gerador elétrico, com a finalidade de gerar energia elétrica com ventos de velocidade a partir de 4 m/s. São apresentados os pressupostos teóricos referentes ao estudo e dimensionamento aerodinâmico de uma pá, baseados principalmente na teoria do disco atuador e na teoria aerodinâmica, através do método de Betz. É feito o estudo de um difusor para ser acoplado à turbina com o objetivo de aumentar o aproveitamento energético. No final foram estudadas as principais topologias utilizadas para a geração eólica e é selecionado o gerador síncrono de ímãs permanentes. A seguir foram estudadas e dimensionadas as partes ativas do gerador (diretamente envolvidas na conversão eletromagnética). É projetado um aerogerador trifásico com enrolamentos distribuídos. O rotor, que é acoplado às pás, localiza-se internamente. Os ímãs permanentes de Neodímio-Boro-Ferro são montados na superfície do rotor. Conclui-se com a avaliação do aerogerador proposto com base nas simulações computacionais de seu desempenho. / This thesis proposes a wind generator design which combines a five blade wind turbine that is attached to a diffuser and an electrical generator. The design aims to produce electric power from 4 m/s starting wind speeds. It presents the theoretical study concerning the design and aerodynamics of a blade, commonly based on the theory of actuator disc and aerodynamic theory, through the method of Betz. A study was conducted on a diffuser to be coupled to the turbine in order to increase the energy utilization. In the end, the main topologies used for wind generation were presented, and the permanent magnet synchronous generator was selected. Next, all the active parts of the generator (directly involved in electromagnetic conversion) were studied and determined. An outer stator with three-phase distributed windings was designed. The rotor, which is coupled to the blades, is located internally. The Neodymium-Iron-Boron permanent magnets are mounted on the rotor surface. It is concluded with an evaluation of the proposed wind generator in accordance with its behavior computational simulations.
9

Synchronní generátor s permanentními magnety a aktivním usměrňovačem / Permanent magnet synchronous generator with active rectifier

Michaliczek, Jan January 2013 (has links)
The main objective of the master`s thesis was to prove, if permanent magnet synchronous generator made by company JULI Motorenwerk s.r.o. could reach higher maximum active power with active rectifier than with six-pulse bridge rectifier. For this reason a mathematical model was made in Matlab/Simulink. The influence of the rectifiers with various kinds of loading was observed and compared by simulations on output variables, like line-to-line voltage and active power. The simulations were also compared with measurement.
10

Análise e controle de gerador síncrono a ímã permanente aplicado a sistema de conversão de energia eólica / Analysis and control of permanent magnet synchronous generator applied to wind energy conversion system

Bernardes, Thiago Araújo 26 June 2009 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This dissertation addresses the analysis and control of permanent magnet synchronous generators (PMSG) found in wind energy conversion system. The operation modes of the wind turbine the current and voltage constraints of a PWM rectifier are defined and a methodology to determine the generator current is presented. The generator currents obtained guarantee the maximization of wind energy extraction as well as the minimization of the PMSG and rectifier losses. In addition, a space-vector modulation technique in overmodulation region is reviewed in detail and applied aiming: (i) to maximize the generator power; (ii) to utilize the entire PWM rectifier DC link voltage resource, and (iii) to obtain a smooth transition to six-step operation. Furthermore, a single current controller is designed for all operating modes being capable to avoid the controller states overload as well as the undesired effects due to the operation in the overmodulation region. The stability analysis of the closed loop system is investigated by means of linear matrix inequality conditions to estimate a region of operation with guaranteed stability. Simulation results are presented to demonstrate the performance of the proposed system. / Esta dissertação trata da análise e do controle de geradores sincronos a íımã permanente usados em sistema de conversão de energia eólica. Os modos de operação da turbina eólica sob restrição de tensão e corrente são definidos e uma metodologia para determinar as correntes do gerador ´e apresentada. As correntes obtidas do gerador garantem a maximização da potência extraída do vento bem como a minimização das perdas do conjunto gerador e retificador PWM. Além disso, a técnica de modulação vetorial na região de sobremodulação é revisada em detalhes e aplicada com objetivo de: (i) maximizar a potência do gerador, (ii) utilizar todo o recurso do barramento CC disponível pelo retificador PWM e (iii) obter uma transição suave para operação do retificador para o modo de seis-pulsos. Uma técnica de controle vetorial é apresentada e comparada. Um único controlador de corrente é projetado para todos os modos operacionais, sendo capaz de evitar tanto sobrecarga dos estados do controlador quanto os efeitos indesejáveis provenientes da operação na região de sobremodulação. A análise da estabilidade do sistema em malha fechada é investigada por meio de desigualdades matriciais lineares para determinar uma região de estabilidade garantida. Por fim, resultados de simulação são apresentados para demonstrar o bom desempenho do sistema proposto.

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