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Power Electronics for Mitigation of Voltage Sags and Improved Control of AC Power SystemsMagalhães de Oliveira, Marcio January 2000 (has links)
The thesis deals with the application of compensators andswitches based on power electronics in AC transmission anddistribution systems. The objective of the studieddevices/equipment is the power flow and voltage control intransmission systems and the mitigation of voltage sags andmomentary interruptions to critical loads in distributionsystems. For validating the power electronics based devices/equipmentdescribed in the thesis, scaled models at a real-time simulatorhave been built. Simulation results of these models arepresented and discussed in the thesis. The equipment studied in the thesis exploit the fast controlactions that can be taken by power electronics devices, whichare much faster than the speed of conventional equipment andprotection systems, based on electromechanical devices. In thisway, the power quality of distribution systems is improved,regarding duration and magnitude of voltage sags (dips) andmomentary interruptions, which are the most relevant types ofdisturbances in distribution systems. The thesis presents some compensators based onforced-commutation voltage-source converters for correctingvoltage sags and swells to critical loads. The seriesconverter, usually denoted Dynamic Voltage Restorer (DVR), hasbeen proved suitable for the task of compensating voltage sagsin the supply network. The use of solid-state devices ascircuit breakers in distribution systems has also been studiedwith the objective of achieving fast interruption or limitationof fault currents. The location and practical aspects for theinstallation of these solid-state breakers are presented. Ithas beenshown that a configuration based on shunt and seriesconnected solid-state devices with controllable turn-offcapability can also provide voltage sag mitigation, without theneed of transformers and large energy storage elements. The operation and control of two Flexible AC TransmissionSystem (FACTS) devices for voltage and power flow control intransmission systems, namely the Static Synchronous Compensator(STATCOM) and the Unified Power Flow Controller (UPFC),respectively, are also studied. A faster response compared totraditional equipment consisting of mechanically based/switchedelements is then achieved. This allows a more flexible controlof power flow and a secure loading of transmission lines tolevels nearer to their thermal limits. The behaviour of thesedevices during faults in the transmission system is alsopresented. Keywords: power electronics, power quality, voltagesags, voltage-source converters, Custom Power, FACTS, real-timesimulations, solid-state devices.
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Power Electronics for Mitigation of Voltage Sags and Improved Control of AC Power SystemsMagalhães de Oliveira, Marcio January 2000 (has links)
<p>The thesis deals with the application of compensators andswitches based on power electronics in AC transmission anddistribution systems. The objective of the studieddevices/equipment is the power flow and voltage control intransmission systems and the mitigation of voltage sags andmomentary interruptions to critical loads in distributionsystems.</p><p>For validating the power electronics based devices/equipmentdescribed in the thesis, scaled models at a real-time simulatorhave been built. Simulation results of these models arepresented and discussed in the thesis.</p><p>The equipment studied in the thesis exploit the fast controlactions that can be taken by power electronics devices, whichare much faster than the speed of conventional equipment andprotection systems, based on electromechanical devices. In thisway, the power quality of distribution systems is improved,regarding duration and magnitude of voltage sags (dips) andmomentary interruptions, which are the most relevant types ofdisturbances in distribution systems.</p><p>The thesis presents some compensators based onforced-commutation voltage-source converters for correctingvoltage sags and swells to critical loads. The seriesconverter, usually denoted Dynamic Voltage Restorer (DVR), hasbeen proved suitable for the task of compensating voltage sagsin the supply network. The use of solid-state devices ascircuit breakers in distribution systems has also been studiedwith the objective of achieving fast interruption or limitationof fault currents. The location and practical aspects for theinstallation of these solid-state breakers are presented. Ithas beenshown that a configuration based on shunt and seriesconnected solid-state devices with controllable turn-offcapability can also provide voltage sag mitigation, without theneed of transformers and large energy storage elements.</p><p>The operation and control of two Flexible AC TransmissionSystem (FACTS) devices for voltage and power flow control intransmission systems, namely the Static Synchronous Compensator(STATCOM) and the Unified Power Flow Controller (UPFC),respectively, are also studied. A faster response compared totraditional equipment consisting of mechanically based/switchedelements is then achieved. This allows a more flexible controlof power flow and a secure loading of transmission lines tolevels nearer to their thermal limits. The behaviour of thesedevices during faults in the transmission system is alsopresented. Keywords: power electronics, power quality, voltagesags, voltage-source converters, Custom Power, FACTS, real-timesimulations, solid-state devices.</p>
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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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Avaliação do desempenho do restaurador dinâmico de tensão frente aos afundamentos e elevações de tensãoJesus, Daniel Maia Fonseca de 03 August 2006 (has links)
Nowadays, national and international electric utilities and end users are
becoming more and more concerned about the quality of the electrical power.
Such concerns are related with the occurrence of electric disturbances capable
to effect the operation and the life expectance of equipments and devices, as well
as affecting and interrupting varied industrial processes. Of the above
mentioned phenomena, short-duration voltage variations deserve special
attention once they are the disturbances that cause the largest damages to the
consumers. As a consequence of that, there are several devices available that
minimize the effects of such disturbances on the equipments. Among those
devices, the Dynamic Voltage Restorer (DVR) represents a modern proposal for
the solution of the problems caused by voltage sags and swells. In this work,
three different system topologies for DVRs are analysed throughout computer
implementations. Comparisons are made between these topologies, with focus
on both the general performance and on the electrical power quality of the
entire system. / As preocupações com os diversos assuntos relacionados à Qualidade da Energia
Elétrica têm sido cada vez mais comuns às empresas de energia e aos
consumidores em geral, e vêm assumindo importância destacada nos cenários
nacional e internacional. Tais preocupações são voltadas para a ocorrência de
distúrbios elétricos capazes de comprometer o desempenho e a vida útil de
equipamentos e dispositivos, além de afetar ou interromper variados processos
industriais. Desses distúrbios, as VTCDs (Variações de Tensão de Curta
Duração) são consideradas as que mais causam prejuízos aos consumidores.
Com isso, já existe na literatura técnica uma série de metodologias de prevenção
e variados dispositivos de atenuação dos efeitos das VTCDs. Destes
dispositivos, destaca-se o Restaurador Dinâmico de Tensão (DVR Dynamic
Voltage Restorer) que é um compensador estático série avançado aplicado à
distribuição de energia elétrica e que representa hoje o que há de mais moderno
em termos de mitigação de afundamentos e elevações de tensão. O presente
trabalho visa contribuir para o estudo do desempenho de algumas topologias de
DVR, comparando a atuação de três opções de configuração através de
simulações computacionais em plataforma SABER. A análise comparativa do
desempenho das topologias não considera apenas a eficiência na compensação
dos distúrbios elétricos, mas também os efeitos que causam na qualidade da
tensão do sistema elétrico, sejam por injeção de harmônicos ou por oscilações
transitórias. / Mestre em Ciências
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