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Design of high tension outdoor substationWorley, Joseph. January 1923 (has links) (PDF)
Thesis (B.S.)--University of Missouri, School of Mines and Metallurgy, 1923. / The entire thesis text is included in file. Typescript. Title from title screen of thesis/dissertation PDF file (viewed June 1, 2010) Includes bibliographical references (p. 22) and index (p. 37-38).
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The analysis of interconnected, high-power DC-DC converters for DC zonal electrical distribution.Langlois, Thomas L. January 1997 (has links)
Thesis (M.S. in Electrical Engineering) Naval Postgraduate School, June 1997. / Thesis advisor, John G. Ciezki. Includes bibliographical references (p. 97). Also available online.
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An analysis of transmission lines on the same right-of-way using a digitally simulated hybrid computerVirmani, Sudhir, January 1967 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1967. / Typescript. Vita. Description based on print version record. Includes bibliographical references.
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Power quality studies in distribution systems involving spectral decomposition /Bachry, Andrzej, January 2004 (has links)
Thesis (Dr.-Ing.)--Otto-von-Guericke-Universität Magdeburg, 2004. / "Untersuchungen zur Spannungsqualität in Verteilungsnetze under Verwendung der Spektralanalyse"--p. v. Includes bibliographical references (p. 114-123).
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A study of convergence and acceleration techniques in the digital solution of power flow problemsEvert, Carl F., January 1959 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1959. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 122-124).
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Magnitudes and phase angles of harmonic voltages for synchronous D.C. transmissionPhandhu-Fung, Amorn, January 1969 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1969. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.
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Distribution supply chain optimizationForney, Elizabeth A. January 2007 (has links) (PDF)
Thesis (M.Eng.)--University of Louisville, 2007. / Title and description from thesis home page (viewed May 14, 2007). Department of Industrial Engineering. Vita. "May 2007." Includes bibliographical references (p. 34-35).
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Analysis for electrical energy and overall efficiency in distribution networks with harmonic distortionNegumbo, Rosalia January 2009 (has links)
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2009 / Traditionally, harmonics are ignored in overall efficiency and energy usage studies. However,
in the modern era, power systems contain levels of harmonics which can no longer be
ignored by engineers, planners, energy conservationists and economists. The directions of
power flows have to be considered when harmonics are present in the power network.
A methodology and new formulae for individual and overall efficiency and energy usage is
developed at each frequency (f1, h and H) and forms the main contribution to research in this
field.
Two case studies were conducted; a measurement based laboratory experiment set-up and a simulated case study. In the set-up, measurements of current, voltage and power at different points in the network for the 1st, 5th and 7th frequencies were taken. Current and voltage results were used for hand calculations to prove the measured power flows and directions. The measurements were taken with a Fluke 345 three-phase harmonic power quality analyzer. For the simulated case study, a network was investigated using the DIgSILENT and SuperHarm software packages. Their results were compared and it was found that DIgSILENT is the preferred package for power results.
It was found that the total harmonic distortion limit for voltage in the simulated network
exceeded an acceptable level. The harmonic mitigation solution chosen was to design a
passive filter to decrease the distortion by shifting the resonance point of the network. The
method to design the passive filter and its impact on efficiency and energy usage is included
in the thesis.
Unique power flow direction diagrams are developed as part of the methodology and form an
essential step in the derivation of the new formulae. Efficiencies, power losses and energy
usage at individual and combined frequencies were determined. Results showed the
negative effects of harmonics on overall efficiency, energy usage and power losses of the
system. The methodology and new formulae developed was found to be effective and their
application is recommended for use by industry.
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Desempenho de um algoritmo backward-forward sweep de cálculo de fluxo de potência /Pantuzi, André Valdir. January 2006 (has links)
Orientador: Antonio Padilha Feltrin / Banca: Sergio Azevedo de Oliveira / Banca: José Aquiles Baesso Grimoni / Resumo: Neste trabalho investigou-se o desempenho de um algoritmo de cálculo de fluxo de potência trifásico baseado em um método de varredura chamado backward forward sweep. O estudo desenvolveu-se para sistemas de distribuição de energia elétrica radiais e/ou radiais fracamente malhados, sendo que o foco principal foi a avaliação do processo de convergência e exatidão do método de fluxo de potência. Para tal finalidade investigou-se variadas situações de redes, tais como: barras conectadas com linhas longas e linhas curtas, presença de reguladores de tensão, presença de geração distribuída, presença de linhas com representação shunt, sistemas com carregamento leve, carregamento médio e carregamento pesado, desequilíbrio de cargas entre as fases (a, b e c), influência de modelos de cargas (potência constante, admitância constante e corrente constante) etc. O método backward-forward sweep é bem conhecido e discutido na literatura, porém uma análise de desempenho com todos os detalhes de modelos existentes nas redes de distribuição não é encontrada. Encontram-se análises com modelos isolados, ou seja, considerando somente redes fracamente malhadas, ou com barras com tensão controlada, ou com modelos de transformadores etc. Muitos destes estudos apresentaram resultados apenas para redes de pequeno porte, pois na maioria dos casos o objetivo principal era validar os modelos. Neste trabalho buscou-se desenvolver um estudo completo de desempenho e confiabilidade de uma implementação do método backward-forward sweep. Assim foram utilizadas redes de distribuição reais e fictícias encontradas na literatura, com as mais variadas topologias, incluindo ramais monofásicos (MRT), diferentes níveis de carregamento, cargas desequilibradas e diversos modelos de componentes de rede. / Abstract: At this work an algorithm of calculation on three-phase power flow was investigated based on a sweeping method called backward forward sweep. The study was developed for radial electric power distribution networks and/or weakly interconnected radial ones, and the main focus was the evaluation of the convergence process and accuracy of the method of power flow. For such a purpose it was investigated varied situations of networks, such as: connected bars with long lines and short lines, voltage regulators presence, distributed generation presence, lines with representation shunt, systems with light, medium and heavy loading, unbalanced of loads among the phases (a, b and c) and influence of loads models (constant power, constant current and constant admittance). The method backward-forward sweep is very known and discussed in the literature, however an analysis with all the details of existent models in the distribution networks is not found. They are analyses with isolated models, in other words, considering only networks weakly interconnected, or with bars with controlled voltage, or with models of transformers. Many of these studies presented resulted just for networks of small load, because in most of the cases the main objective was to validate the models. In this work it was looked for to develop a complete study and reliability of an implementation of the method backward-forward sweep. Like this real and fictitious distribution networks were used found in the literature, with the most varied topologies, including monophase extensions (MRT), different loading levels, unbalanced loads and several models of networks components. / Mestre
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'n Ondersoek na begrensings by die kompensasie van vervorming in elektriese energieverspreidingsnetwerkeLe Roux, Wiehan 16 August 2012 (has links)
M.Ing. / This study investigates the limits to which distortion can be compensated in electrical distribution networks. Many factors hinder the "ideal" compensation of the line current to a perfect sinusoidal, in phase, scaled replica of the supply voltage. The different power theories that can be used to derive the reference compensation current, is one of the fundamental limits. The differences and correspondences between the FBD and Czarnecki theories are investigated in detail. Furthermore, it is shown by simulation and practical results, that the effectivity of compensation by the instantaneous power theory is load dependent. The compensation strategy and topology also impose limits on the effectivity of compensation. The position and strategy of a compensator determine whether the consumer is able to isolate his distortion from the rest of the network, or isolate himself from the distortion of other consumers. Distortion frequencies and system impedances are chosen specifically to visually show the effect of the different topologies and strategies, by means of simulation. One of the most important limits brought about by new technology, is the lagging of the reference compensation current, due to the use of signal processing in determining the reference signals. The effect of this lagging reference is clearly shown by means of simulation and practical compensation systems. An effectivity index for this phenomenon is defined for steady state systems. The dynamic limitations of this lagging reference compensation current is investigated thoroughly. A method is derived by which the maximum fault, due to the sampling time and signal processing time, can be calculated when a high f-region occurs in the line current. The dynamic response of the compensation system is also limited by the ' di-ability of the converter. Therefore, a method is developed to calculate the individual fault contribution of the lagging reference as well as the converter. This method enables designers to determine the parameters of the signal processing system and the converter in the planning phase. The use of a maximum sampling frequency is stressed. In the experimental work, a 10kVA, PWM-switched IGBT inverter is used as a parallel voltage fed compensator. It compensates for two non-linear loads : a three phase diode rectifier with an inductive load, and a three phase diode rectifier with a capacitive load. The practical compensation according to the instantaneous power theory of these two loads, confirms that the result of this compensation is load dependent. The effect of the lagging reference compensation current in a practical system is also shown.
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