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Inclusão do efeito da frequência nas equações de estado de linhas bifásicas : análise no domínio do tempo /Yamanaka, Fábio Norio Razé. January 2009 (has links)
Orientador: Sérgio Kurokawa / Banca: Afonso José do Prado / Banca: Lourenço Matias / Resumo: O objetivo deste projeto é o desenvolvimento de um modelo de linha de transmissão bifásica diretamente no domínio do tempo, que leve em consideração o efeito da freqüência sobre seus parâmetros longitudinais, utilizando os conceitos de variáveis de estado. Os parâmetros longitudinais, variáveis em relação à freqüência, serão aproximados por funções racionais, cujos pólos e resíduos deverão ser determinados por meio do algoritmo vector fitting. Em seguida, as funções racionais que descrevem o comportamento dos parâmetros longitudinais serão associadas com um circuito elétrico equivalente, que será inserido em cada um dos circuitos π, constituindo uma grande quantidade de cascata de circuitos π. O modelo será utilizado para a realização de simulações de transitórios resultantes das operações de manobras e chaveamentos que ocorrem em uma linha bifásica com plano de simetria vertical. Os resultados serão comparados com os resultados obtidos com programas computacionais do tipo EMTP (cascata de circuitos π inserida no EMTP). Ao término do projeto teremos a nossa disposição um modelo de linha de transmissão que não necessita do uso de simuladores do tipo EMTP. / Abstract: The objective of this work is to implement a computational model of two-phase transmission line in time domain taking into account its frequency dependent longitudinal parameters. The line is represented through a cascade of π circuits and the frequency dependence of the longitudinal parameters is approximated by a rational functions that can be associated with an equivalent circuit representation and this equivalent circuit is inserted in each π circuit. After that the cascade is described through state equations. Validating the model, a frequency dependent two-phase line is represented by a cascade of π circuits. The model will be use for typical switching transients in a two-phase transmission line with a vertical symmetrical plan. The simulations were carried out using state space techniques and an EMTP program (in this case, the cascade was inserted in the EMTP program). It is observed that the simulation results obtained with state space representation are in agreement with those results obtained with EMTP. / Mestre
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[en] VOLTAGE STABILITY ASSESSMENT CONSIDERING PRIMARY FREQUENCY CONTROL AND FREQUENCY-DEPENDENT LINE PARAMETERS / [pt] AVALIAÇÃO DAS CONDIÇÕES DE ESTABILIDADE DE TENSÃO CONSIDERANDO A REGULAÇÃO PRIMÁRIA E PARÂMETROS DA REDE VARIÁVEIS COM A FREQUÊNCIADIANA MARGARITA GARCIA MARTINEZ 05 January 2016 (has links)
[pt] A crescente demanda de energia elétrica faz com que a complexidade dos
sistemas elétricos de potência seja cada vez maior, associado às limitações na
expansão do sistema de transmissão, resulta na operação dos sistemas elétricos
mais próximos de seus limites, tornando-os vulneráveis a problemas de
estabilidade de tensão. Nesse contexto, faz-se necessário o desenvolvimento de
ferramentas computacionais capazes de representar os sistemas elétricos mais
adequadamente, melhorando assim as condições de análise. Neste trabalho são
apresentadas três modelagens do fluxo de carga mais completas que a modelagem
clássica, a saber: a modelagem de múltiplas barras swing, a modelagem com
regulação primária e a modelagem com parâmetros da rede de transmissão
variáveis com a frequência. Uma vez utilizadas na solução do problema do fluxo
de carga estas modelagens são estendidas para a realização do cálculo dos índices
de estabilidade de tensão das barras de carga, barras de tensão controlada e barras
swing. Testes numéricos com um sistema-teste de 6 barras são apresentados para a
verificação da aplicabilidade e adequação dos modelos analisados. / [en] The growing demand for electricity increases the complexity of electric
power systems which, when combined with limitations in the expansion of
transmission systems, results in the operation of electrical systems closer to their
limits, making them vulnerable to voltage stability problems. In this context, there
is a gap in the market for the development of computational tools that can
represent the electrical systems more appropriately, thereby improving the
conditions of analysis. The present study formulates three non-classical load flow
representations: multiple swing buses, primary frequency control, and frequency
dependent transmission network parameters. Once used in the load flow problem
solving, these models are also extended to allow the calculation of voltage
stability indices of load buses, controlled voltage buses and swing buses.
Numerical tests with a 6-bus test system are presented to verify the applicability
and adequacy of the proposed models.
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Inclusão do efeito da frequência nas equações de estado de linhas bifásicas: análise no domínio do tempoYamanaka, Fábio Norio Razé [UNESP] 09 March 2009 (has links) (PDF)
Made available in DSpace on 2014-06-11T19:22:33Z (GMT). No. of bitstreams: 0
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yamanaka_fnr_me_ilha.pdf: 596127 bytes, checksum: 6456b9483b4e3ac56e9f1fded745845f (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O objetivo deste projeto é o desenvolvimento de um modelo de linha de transmissão bifásica diretamente no domínio do tempo, que leve em consideração o efeito da freqüência sobre seus parâmetros longitudinais, utilizando os conceitos de variáveis de estado. Os parâmetros longitudinais, variáveis em relação à freqüência, serão aproximados por funções racionais, cujos pólos e resíduos deverão ser determinados por meio do algoritmo vector fitting. Em seguida, as funções racionais que descrevem o comportamento dos parâmetros longitudinais serão associadas com um circuito elétrico equivalente, que será inserido em cada um dos circuitos π, constituindo uma grande quantidade de cascata de circuitos π. O modelo será utilizado para a realização de simulações de transitórios resultantes das operações de manobras e chaveamentos que ocorrem em uma linha bifásica com plano de simetria vertical. Os resultados serão comparados com os resultados obtidos com programas computacionais do tipo EMTP (cascata de circuitos π inserida no EMTP). Ao término do projeto teremos a nossa disposição um modelo de linha de transmissão que não necessita do uso de simuladores do tipo EMTP. / The objective of this work is to implement a computational model of two-phase transmission line in time domain taking into account its frequency dependent longitudinal parameters. The line is represented through a cascade of π circuits and the frequency dependence of the longitudinal parameters is approximated by a rational functions that can be associated with an equivalent circuit representation and this equivalent circuit is inserted in each π circuit. After that the cascade is described through state equations. Validating the model, a frequency dependent two-phase line is represented by a cascade of π circuits. The model will be use for typical switching transients in a two-phase transmission line with a vertical symmetrical plan. The simulations were carried out using state space techniques and an EMTP program (in this case, the cascade was inserted in the EMTP program). It is observed that the simulation results obtained with state space representation are in agreement with those results obtained with EMTP.
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Renewable Energy Integrated Power System Stability Assessment with Validated System Model Based on PMU MeasurementsWang, Chen 14 June 2019 (has links)
Renewable energy is playing an increasingly significant role in power system operation and stability assessment with its numerous penetration expansion. This is not only brought by its uncertain power output and inverter-based equipment structures but also its operation characteristics like Low Voltage Ride Through (LVRT). It is thus necessary to take these characteristics into consideration and further to find more adaptive schemes to implement them for more effective analysis and safer power system operation. All the aforementioned is based on the accurate identification of the system fundamental information. In this dissertation, a systematic approach is proposed to find the valid system model by estimating the transmission line parameters in the system with PMU measurements. The system transient stability assessment is conducted based on this validated model. The constrained stability region is estimated with Lyapunov functions family based method in the center of angles reference frame considering renewables LVRT as operation limits. In order to integrate the LVRT constraints, a polytopic inner approximation mechanism is introduced to linearize and organize the transformed constraints in state space, which brings much scalability to the whole process. From the voltage stability perspective, an approach to adaptively adjust LVRT settings of the renewable energy sources in the system is formulated to guarantee the system load margin and thus the voltage security. A voltage prediction method is introduced for critical renewable energy sources identification. Estimation methods based on interpolation and sensitivities are developed and conducted for saving computation effort brought by continuation power flows. Multiple test cases are studied utilizing the proposed approaches and results are demonstrated. / Doctor of Philosophy / Renewable energy utilization is continuously rising nowadays. They are clean but highly dependent on natural resources, which causes their uncertainty and intermittence in electric power output. The power system, on the other hand, is designed for schedulable and controllable power generators, which make the traditional methods for system operation and analysis of the system stability much less effective facing the trend of renewables integration. In this dissertation, a series of systematic approaches are proposed firstly identify the system parameters for more accurate system modeling through PMU measurements, then to assess the system transient stability considering the renewable energy sources operation limits, and finally to adaptively adjust these operation limit for improving the system voltage security. The operation limits are transferred into the form in terms of system states. Linearization and approximation methods are also introduced to enhance the scalability of the processes. Multiple test cases are studied with the proposed approaches and the results demonstrate their effectiveness and efficiency.
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Chránění paralelních a souběžných vedení vvn distanční ochranou / Distance Protection for Parallel and Double-Circuit HV LinesMuhayimana, Obed January 2016 (has links)
Chránění paralelních a souběžných vedení je skutečně problematické z důvodů účinku vzájemné indukčnosti vedení v souběhu, odporu poruchy nebo rozložení zpětného proudu poruchy, které zkreslují impedanci jednofázové poruchy „viděné“ distanční ochranou. Proto současné numerické distanční ochrany nabízí kompenzační funkce, které je možno použít pro korekci charakteristik a výpočtu vzdálenosti poruchy pomocí lokátorů její charakteristice s dostatečnou odporovou rezervou a možnosti nastavení odpovídajícího režimu vypnutí. Tato práce se zabývá problémy, kterým čelí lokátor distanční ochrany při měření a výpočtu vzdálenosti místa jednofázové poruchy, a také mapuje současný stav řešení těchto problémů. Na základě výpočtu parametrů zadaného vedení bylo provedeno zhodnocení možných chyb při lokalizaci jednofázové poruchy a navrženo nastavení distanční ochrany určené k jeho chránění včetně nastavení parametrů určených pro kompenzaci výše uvedených negativních jevů. Bylo zjištěno, že zemnící lana a transpozice vedení přispívají k přesnosti lokátorů, protože nejmenší chyba byla zjištěna v transponovaném vedení se zemním lanem.
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