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Decision support algorithms for power system and power electronic designHeidari, Maziar 10 September 2010 (has links)
The thesis introduces an approach for obtaining higher level decision support information using electromagnetic transient (EMT) simulation programs. In this approach, a suite of higher level driver programs (decision support tools) control the simulator to gain important information about the system being simulated. These tools conduct a sequence of simulation runs, in each of which the study parameters are carefully selected based on the observations of the earlier runs in the sequence. In this research two such tools have been developed in conjunction with the PSCAD/EMTDC electromagnetic transient simulation program. The first tool is an improved optimization algorithm, which is used for automatic optimization of the system parameters to achieve a desired performance. This algorithm improves the capabilities of the previously reported method of optimization-enabled electromagnetic transient simulation by using an enhanced gradient-based optimization algorithm with constraint handling techniques. In addition to allow handling of design problems with more than one objective the thesis proposes to augment the optimization tool with the technique of Pareto optimality. A sequence of optimization runs are conducted to obtain the Pareto frontier, which quantifies the tradeoffs between the design objectives. The frontier can be used by the designer for decision making process.
The second tool developed in this research helps the designer to study the effects of uncertainties in a design. By using a similar multiple-run approach this sensitivity analysis tool provides surrogate models of the system, which are simple mathematical functions that represent different aspects of the system performance. These models allow the designer to analyze the effects of uncertainties on system performance without having to conduct any further time-consuming EMT simulations. In this research it has been also proposed to add probabilistic analysis capabilities to the developed sensitivity analysis tool. Since probabilistic analysis of a system using conventional techniques (e.g. Monte-Carlo simulations) normally requires a large number of EMT simulation runs, using surrogate models instead of the actual simulation runs yields significant savings in terms of shortened simulation time. A number of examples have been used throughout the thesis to demonstrate the application and usefulness of the proposed tools.
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Decision support algorithms for power system and power electronic designHeidari, Maziar 10 September 2010 (has links)
The thesis introduces an approach for obtaining higher level decision support information using electromagnetic transient (EMT) simulation programs. In this approach, a suite of higher level driver programs (decision support tools) control the simulator to gain important information about the system being simulated. These tools conduct a sequence of simulation runs, in each of which the study parameters are carefully selected based on the observations of the earlier runs in the sequence. In this research two such tools have been developed in conjunction with the PSCAD/EMTDC electromagnetic transient simulation program. The first tool is an improved optimization algorithm, which is used for automatic optimization of the system parameters to achieve a desired performance. This algorithm improves the capabilities of the previously reported method of optimization-enabled electromagnetic transient simulation by using an enhanced gradient-based optimization algorithm with constraint handling techniques. In addition to allow handling of design problems with more than one objective the thesis proposes to augment the optimization tool with the technique of Pareto optimality. A sequence of optimization runs are conducted to obtain the Pareto frontier, which quantifies the tradeoffs between the design objectives. The frontier can be used by the designer for decision making process.
The second tool developed in this research helps the designer to study the effects of uncertainties in a design. By using a similar multiple-run approach this sensitivity analysis tool provides surrogate models of the system, which are simple mathematical functions that represent different aspects of the system performance. These models allow the designer to analyze the effects of uncertainties on system performance without having to conduct any further time-consuming EMT simulations. In this research it has been also proposed to add probabilistic analysis capabilities to the developed sensitivity analysis tool. Since probabilistic analysis of a system using conventional techniques (e.g. Monte-Carlo simulations) normally requires a large number of EMT simulation runs, using surrogate models instead of the actual simulation runs yields significant savings in terms of shortened simulation time. A number of examples have been used throughout the thesis to demonstrate the application and usefulness of the proposed tools.
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Adaptive Critic Designs Based Neurocontrollers for Local and Wide Area Control of a Multimachine Power System with a Static CompensatorMohagheghi, Salman 10 July 2006 (has links)
Modern power systems operate much closer to their stability limits than before. With the introduction of highly sensitive industrial and residential loads, the loss of system stability becomes increasingly costly. Reinforcing the power grid by installing additional transmission lines, creating more complicated meshed networks and increasing the voltage level are among the effective, yet expensive solutions. An alternative approach is to improve the performance of the existing power system components by incorporating more intelligent control techniques.
This can be achieved in two ways: introducing intelligent local controllers for the existing components in the power network in order to employ their utmost capabilities, and implementing global intelligent schemes for optimizing the performance of multiple local controllers based on an objective function associated with the overall performance of the power system. Both these aspects are investigated in this thesis.
In the first section, artificial neural networks are adopted for designing an optimal nonlinear controller for a static compensator (STATCOM) connected to a multimachine power system. The neurocontroller implementation is based on the adaptive critic designs (ACD) technique and provides an optimal control policy over the infinite horizon time of the problem. The ACD based neurocontroller outperforms a conventional controller both in terms of improving the power system dynamic stability and reducing the control effort required.
The second section investigates the further improvement of the power system behavior by introducing an ACD based neurocontroller for hierarchical control of a multimachine power system. The proposed wide area controller improves the power system dynamic stability by generating optimal control signals as auxiliary reference signals for the synchronous generators automatic voltage regulators and the STATCOM line voltage controller. This multilevel hierarchical control scheme forces the different controllers throughout the power system to optimally respond to any fault or disturbance by reducing a predefined cost function associated with the power system performance.
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Gerador de indução com excitação estática, filtro ativo e armazenamento de energia para sistemas eólicos isolados / Induction generator with static excitation, active filter and energy storage for stand-alone wind systemsTrapp, Jordan Gustavo 01 March 2013 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The growing global demand for electricity, increasing scarcity of the conventional
energy sources and the need to reduce environmental impacts contributed to the pronounced
development of new technologies based on clean and renewable energy sources. In this
context, the wind power is the technology that has had a greater development in recent
decades. This source has played an important role in the advancement of alternative sources in
the world energy matrix, because the technology is already consolidated and is economically
viable. Accompanying the technological development of the alternative sources, the induction
generator has stood out among the generators with the technology best suited to generating
electricity for isolated energy systems. With this motivation, this thesis proposes a new
configuration for an isolated wind energy conversion system using variable speed turbines, in
which the induction generator is electronically excited by means of a static compensator.
Also, the generator is associated to a shunt active filter for compensation of non-linear and
unbalanced loads, and with a battery bank for energy storage and DC bus stabilization. It is
also discussed the main problems with the induction generator related to the magnetization
characteristic and its dynamic model, and the proposed solutions to mitigate these problems.
The results confirm the effectiveness of the proposed wind energy conversion system,
showing its operational capability with variable load and variable turbine speed. Finally it is
presented the main conclusions of this work and suggestions for future works in the same line
of research. / O crescente aumento da demanda mundial de energia elétrica, a escassez cada vez
maior das fontes convencionais de energia e a necessidade de redução dos impactos
ambientais contribuíram para o acentuado desenvolvimento de novas tecnologias baseadas em
fontes limpas e renováveis. Neste contexto, a energia eólica foi uma das tecnologias que mais
se desenvolveu nas últimas décadas. Esta fonte tem desempenhado importante papel no
avanço das fontes alternativas na matriz energética mundial, pois é uma tecnologia já
consolidada e viável economicamente. Acompanhando o desenvolvimento tecnológico das
fontes alternativas, o gerador de indução tem se destacado dentre as tecnologias de geradores
mais adequadas para sistemas isolados de geração de energia elétrica. Com esta motivação,
esta tese propõe uma nova configuração de conversão de energia eólica isolada, utilizando
turbinas de velocidade variável, na qual o gerador de indução é excitado eletronicamente por
meio de um compensador estático. Ainda mais, o gerador é associado a um filtro ativo shunt
para a compensação de cargas não-lineares e desbalanceadas e a um banco de baterias para
armazenamento de energia e estabilização do barramento cc, comum aos conversores. São
discutidos os principais problemas relacionados ao gerador de indução para esta aplicação
através da característica de magnetização e do seu modelo dinâmico, com as soluções
propostas para mitigar estes problemas. Os resultados práticos e de simulação obtidos
comprovam a efetividade da configuração de conversão de energia eólica proposta, mostrando
a capacidade de operação do gerador com carga variável e velocidade variável da turbina. Por
fim são apresentadas as principais conclusões e sugestões para trabalhos futuros na mesma
linha de pesquisa.
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Estudo e modelagem de um DSTATCOM para aplicação em sistemas de distribuição com problemas de desequilíbrio de tensãoLessa, Avanir Carlos January 2014 (has links)
Orientador: Prof. Dr. Claudionor Francisco do Nascimento / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Engenharia Elétrica, 2014. / Os sistemas de distribuição de energia elétrica, de um modo geral, são radiais. Estes
sistemas podem possuir problemas de qualidade da energia elétrica em suas barras, tais
como os desequilíbrios de tensão e de corrente. Ademais, as redes de distribuição podem
conter uma grande quantidade de cargas monofásicas e trifásicas desequilibradas, indutivas
e não lineares, o que pode resultar nos seguintes problemas: baixo fator de potência,
desequilíbrio de tensão e distorção harmônica. Nesse sentido, devido à dinâmica destas
cargas e a ocorrência de fenômenos, como afundamento de tensão por partidas de grandes
motores e curtos-circuitos, há a necessidade de solução destas anormalidades, com
respostas rápidas de estabilização. De maneira a atender a esta necessidade, os resultados
das recentes pesquisas baseadas na eletrônica de potência têm proporcionado a utilização de
equipamentos capazes de trabalhar em sistemas de potência de alta tensão. Esse avanço
permite aplicações de dispositivos FACTS (Flexible Alternating Current Transmission
Systems) nas operações de flexibilidade e mitigação de problemas comuns às redes de
energia elétrica de transmissão e de distribuição, melhorando, assim, a qualidade da energia
elétrica, o que aumenta a confiabilidade destes sistemas. Com este propósito, o presente
trabalho tem como objetivo principal o estudo e a modelagem de um DSTATCOM
(Distribution Static Compensator) em um sistema de distribuição de energia elétrica com
variações de tensão, avaliando os possíveis benefícios proporcionados a este sistema. Os
resultados de simulação foram obtidos com o auxílio do software MatLab/Simuling. / Distribution systems of electric power, in general, are radial. These systems have power
quality problems in their power bars, such as the voltage variations. Moreover, the
distribution networks contain a large amount of single-phase and three-phase unbalanced
loads, inductive and non-linear, which may result in the following problems: low power
factor, voltage unbalance, and harmonic distortion. Accordingly, due to the dynamic loads
and the occurrence of these phenomena, such as voltage sag matches by large motors and
short circuits, there is a need for solution of these abnormalities, with responsive
stabilization. In order to meet this need, the results of recent research based on power
electronics have provided the use of equipment to work on systems of high voltage power.
This advancement allows applications FACTS devices (Flexible Alternating Current
Transmission Systems) flexibility in operations and mitigation of problems common to the
networks of electricity transmission and distribution, thus improving the quality of electric
power, which increases the reliability of these systems. For this purpose, the present work
has as main objective the study and modeling of a DSTATCOM (Distribution Static
Compensator) in a system of electricity distribution, evaluating the possible benefits
provided to the electric power system. The simulation results were obtained with the aid of
software Matlab/Simuling. The effectiveness of the work has been proven since the
DSTATCOM installed, the distribution network operated within established standards.
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Control of Custom Power System using Active Disturbance Rejection ControlLooja, Tuladhar R. 18 August 2015 (has links)
No description available.
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Modelagem e análise de desempenho transitório e dinâmico de compensadores estáticos de reativos utilizando reatores saturadosBarbosa Júnior, João Areis Ferreira 17 February 2009 (has links)
Fundação de Amparo a Pesquisa do Estado de Minas Gerais / The growing demand for energy in electric systems has resulted in major
operational difficulties related to voltage level control. This has led specialists to
deal more strictly with the control of reactive power and voltage, mainly in the
case of radial electric systems supplying seasonal loads. Amongst a variety of
commercial solutions to provide voltage regulation arise the static compensators.
These represent an alternative of great potential to control the power flow and
improve the voltage profile of electric systems. In this context, the SCRSC or
Saturated Core Reactor Static Compensator - made up of a magnetic core with
special characteristics and capacitors in series and in parallel - becomes an
interesting alternative, when compared to other types of equipment. The main
advantages related to this product are: robustness, low cost, lower maintenance
requirements and good performance. Within this scenario, the purpose of the
present dissertation is to carry on further investigation related to a more
comprehensive model and computational studies of transient, dynamic and
steady state performance of an overall electrical system. Using a given system
several studies are performed so as to highlight the equipment energization
phenomena as well as the device effectiveness at compensating for system
operational condition changes that require the use of voltage regulators to
accomplish the power utility standards. / A crescente demanda de energia nos sistemas elétricos tem resultado em
dificuldades crescentes na sua operação. Isso tem levado os especialistas a tratar
o controle da potência reativa e da tensão com mais rigor, principalmente em
sistemas elétricos com características radiais conciliados com cargas sazonais.
Para isso, dentre as várias possibilidades encontradas no mercado, os
compensadores estáticos destacam-se como uma alternativa de grande potencial
para a melhoria do perfil de tensão dos sistemas elétricos. Neste cenário aparece
um equipamento denominado por Compensador Estático à base de Reator a
Núcleo Saturado, constituído por uma unidade magnética especial e bancos de
capacitores em paralelo e em série. As propriedades construtivas e operativas
deste dispositivo oferecem uma possibilidade técnica robusta, de baixo custo,
com menores requisitos de manutenção e ainda, com adequado desempenho
operacional no que tange ao processo da regulação dinâmica da tensão. Dentro
desta linha de trabalhos, esta dissertação, complementando pesquisas anteriores,
avança no sentido de oferecer uma modelagem mais completa do dispositivo e
sua respectiva implementação computacional. Utilizando tais recursos, são
realizados estudos investigativos sobre o desempenho do compensador em pauta
diante dos processos de energização e também quando da ocorrência de súbitas
variações operativas do complexo elétrico que determinam a necessidade de
dispositivos para a estabilização da tensão dentro dos patamares requeridos. / Mestre em Ciências
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