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31	Αξιολόγηση δυνατοτήτων ηλεκτρονικών διατάξεων ισχύος που χρησιμοποιούνται για την αποδοτικότερη χρήση των δικτύων μεταφοράς ηλεκτρικής ενέργειας Παστός, Δημήτριος 16 November 2009 (has links) - / - Ηλεκτρική ενέργεια Συστήματα Συσκευές FACTS 621.319 1 Electrical energy Systems FACTS devices
32	Aplicação do dispositivo FACTS (Flexible AC Transmission Systems) em sistema de distribuição -simulação de desempenho. / Distribution system FACTS (flexible AC transmission systems) application - performance simulation. Mario Masuda 13 September 2006 (has links) As novas tecnologias FACTS aplicadas ao sistema de transmissão, com base em eletrônica de potência, podem também ser úteis à distribuição. Para tal é preciso conduzir um procedimento de consolidação da utilização e do desempenho destas, para sua aplicação sem riscos. Neste trabalho, dois aspectos serão contemplados. O primeiro se refere à aplicação do dispositivo FACTS atuando como um capacitor série. Em se tendo controle de módulo e da fase da tensão inserida em série com a linha pode-se fazê-la comportar-se como uma queda em uma reatância série capacitiva ou indutiva. O controle dessa reatância série (aumentando/diminuindo) permitirá a aplicação do conceito de compensação série em qualquer ponto do sistema de distribuição, provendo benefícios de um controle contínuo da tensão e também do controle do fluxo de carga no sistema independente da corrente. O segundo aspecto refere-se ao uso dos dispositivos na conexão de alimentadores controlando a potência ativa entre eles. Para esta operação outro dispositivo UPFC, com conceito similar ao descrito acima, entretanto atuando na fase da tensão entre 2 barras, comporta-se como um transformador defasador com variação contínua de ?taps?, podendo controlar a potência ativa entre os alimentadores. A aplicação destas tecnologias propiciarão vários benefícios para a expansão da distribuição tais como, flexibilização do uso da rede, interligação de alimentadores permitindo manobras de blocos de energia sem ?pisca?, ajuste contínuo do suporte de reativos durante a operação, controle dinâmico do fluxo de potência. O objetivo deste trabalho é estudar a aplicabilidade da tecnologia FACTS e estender este conceito para aplicação em sistemas de distribuição e conduzir simulações digitais em redes de distribuição (15kV) identificando o desempenho e os benefícios atingidos. O programa de simulação utilizado é o ATP (Alternative Transients Program). / The new FACTS technologies applied to the transmission system, based on power electronics, can also be useful to the distribution. For that, it is necessary to drive a procedure to consolidate the use and the performance for their application without risks. In this work two aspects will be approached. The first refers to the application of a FACTS device acting as series compensator. This device will be able to control the voltage in module and phase in order to act as a voltage drop in a serie reactance with capacitive or inductive features. The control of this series reactance (increasing/ decreasing) will allow the application of series compensation concept to any point of the distribution system, providing the benefits of continuous control of the voltage added to the load flow control in the system independent of the current. The second aspect refers to its use in the connection of two feeders controlling the active power between them. For this operation other device, UPFC, with similar concept as described previously, acts mainly in the phase of the injected voltage in the line, performing as a phase-shift with continuous taps variation and is able to control the active power flow between feeders. The application of this technology will provide several benefits for the distribution expansion, such as, a greater flexibility in the use of the network, connection of feeders without load flow interruption, continuous adjust of reactive power during the operation and dynamic control of power flow. The purpose of this work is to study the applicability of the FACTS technology, to extend this concept for the application in the distribution system by using digital simulations in distribution network up to 15kV identifying the performance and the reached benefits. Compensação série Controle de fluxo de potência ativa FACTS Active power flow control FACTS Series compensation
33	Extrakce faktů z Webu / Web Information Extraction Pekárek, Filip January 2010 (has links) In the present work we suggest and test new process of web information extraction. Proposed method consider DOM tree of the web page including it's visual cues. Basic and the rst part is semantic parts extraction of a page using VIPS algorithm. Next step is validation and eventual modication of gained information based on the local context. Final part is classication of analyzing page into predened classes using got facts. Set of critics implemented by congurable instances of neural networks determine the classes.
34	What sorts of entities does grounding relate? Barnett, Sylvia January 2018 (has links) The topics of Grounding and Metaphysical Explanation have been at the forefront of research and debate within metaphysics for the last decade. Grounding is commonly taken to be a relation of non-causal dependence. In this thesis I address the pertinent question as to what sorts of entities are related in instances of grounding. There has so far been little enquiry into this issue, and it therefore requires urgent attention. I argue here that the entities involved in grounding are facts, where facts are true Fregean propositions. True Fregean propositions are abstract entities composed of senses, and are individuated according the senses which they involve. I proceed by setting out some desiderata which the entities involved in grounding will fulfil. Firstly, they will be individuated sufficiently finely as to provide instances of grounding to back all putative cases of non-causal explanation. Secondly, they will ensure that there is unity between instances of grounding and instances of causation. Finally, they will be mind- independent. I survey different types of entity and show that true Fregean propositions are best-equipped to fulfil these desiderata. We therefore have reason to believe that grounding relates facts, so understood. The conclusion of this thesis therefore makes it incumbent upon us to extend our ontology to include true Fregean propositions. 100
35	Christianity, culture, and the African experiences in Bocha, Zimbabwe, c.1905 – 1960s Magaya, Aldrin Tinashe 01 May 2018 (has links) This dissertation examines the history of VaBocha experiences with Christianity. Historians have long assumed that Christian conversion was a static product. I show that conversion was an ongoing fluid process that churchgoers negotiated, contested, and appropriated to suit the Bocha social fabric. I demonstrate how existing social facts and sites of socialization shaped VaBocha understanding of Christianity. In doing so, I focus on the daily social practices to reveal how VaBocha reconciled the idioms of Christianity with their indigenous lifeways. VaBocha made use of existing sites of socialization to make Christianity useful to their everyday life. These sites were social spaces were VaBocha articulated familial and kinship relations and learned the values, behavior, and skills fitting to Bocha society. By probing the relations occurring at the familial and communal level, the dissertation illustrates that the domestication of Christianity started in familial domestic spaces. In the dissertation, I discuss the nuanced relationships that occurred between churchgoers and family members who were not churchgoers. The fact that Christianity never established hegemony over existing social facts and the ways of socialization which reproduced them meant that VaBocha churchgoers had to devise ways to balance the demands of Christianity against familial and communal obligations. I show why churchgoers became eclectic Christians who participated in both church and indigenous activities and beliefs, despite the fact that the churches condemned most of these indigenous practices. The dissertation shows that the pre-Christian ethics of tolerance of diversity allowed for Christian and indigenous practices to co-exist harmoniously. Christianity Daily practices Diversity Sites of Socialization Social facts Zimbabwe History
36	Modeling and Analysis of a Four-Switch Buck-Boost Dynamic Capacitor Plasencia, Oscar 01 December 2011 (has links) Modern electric power utilities are facing a variety of challenges introduced by the increasing complexity of their operation, structure, and consumer loads. One such challenge has been to supply the ever growing demand for reactive power which is essential for grid support. For this reason dynamic VAR technologies are becoming much more important to modern day power systems. A recent dynamic VAR technology known as the Dynamic Capacitor offers full quadrant capacitive VAR control through the combination of AC/AC buck and boost cells. This paper introduces a new topology deemed the “Four-Switch Buck-Boost Dynamic Capacitor” which promises to combine the performance of the AC/AC buck and boost cells into a single power electronic device. This is done in an effort to reduce the required component count and thus reduce the overall device footprint and implementation cost of the Dynamic Capacitor technology. Derivations and analysis will detail the workings of the Four-Switch Buck-Boost Dynamic Capacitor, while simulations in LTSpice and Matlab Simulink will demonstrate the functionality and performance of the proposed topology. The results of this thesis prove the Four-Switch Buck-Boost Dynamic Capacitor to be a feasible shunt reactive compensating device. Dynamic Capacitor D-Cap FACTS VAR Compensation Power and Energy
37	Damping subsynchronous resonance oscillations using a VSC HVDC back-to-back system Tang, Guosheng 06 July 2006 A problem of interest in the power industry is the mitigation of severe torsional oscillations induced in turbine-generator shaft systems due to Subsynchronous Resonance (SSR). SSR occurs when a natural frequency of a series compensated transmission system coincides with the complement of one of the torsional modes of the turbine-generator shaft system. Under such circumstances, the turbine-generator shaft system oscillates at a frequency corresponding to the torsional mode frequency and unless corrective action is taken, the torsional oscillations can grow and may result in shaft damage in a few seconds. <p> This thesis reports the use of a supplementary controller along with the Voltage Source Converter (VSC) HVDC back-to-back active power controller to damp all SSR torsional oscillations. In this context, investigations are conducted on a typical HVAC/DC system incorporating a large turbine-generator and a VSC HVDC back-to-back system. The generator speed deviation is used as the stabilizing signal for the supplementary controller. <p>The results of the investigations conducted in this thesis show that the achieved control design is effective in damping all the shaft torsional torques over a wide range of compensation levels. The results and discussion presented in this thesis should provide valuable information to electric power utilities engaged in planning and operating series capacitor compensated transmission lines and VSC HVDC back-to-back systems. VSC HVDC back-to-back system Subsynchronous resonance FACTS
38	Damping subsynchronous resonance oscillations using a VSC HVDC back-to-back system Tang, Guosheng 06 July 2006 (has links) A problem of interest in the power industry is the mitigation of severe torsional oscillations induced in turbine-generator shaft systems due to Subsynchronous Resonance (SSR). SSR occurs when a natural frequency of a series compensated transmission system coincides with the complement of one of the torsional modes of the turbine-generator shaft system. Under such circumstances, the turbine-generator shaft system oscillates at a frequency corresponding to the torsional mode frequency and unless corrective action is taken, the torsional oscillations can grow and may result in shaft damage in a few seconds. <p> This thesis reports the use of a supplementary controller along with the Voltage Source Converter (VSC) HVDC back-to-back active power controller to damp all SSR torsional oscillations. In this context, investigations are conducted on a typical HVAC/DC system incorporating a large turbine-generator and a VSC HVDC back-to-back system. The generator speed deviation is used as the stabilizing signal for the supplementary controller. <p>The results of the investigations conducted in this thesis show that the achieved control design is effective in damping all the shaft torsional torques over a wide range of compensation levels. The results and discussion presented in this thesis should provide valuable information to electric power utilities engaged in planning and operating series capacitor compensated transmission lines and VSC HVDC back-to-back systems. VSC HVDC back-to-back system Subsynchronous resonance FACTS
39	FACTS device modelling in the harmonic domain Collins, Christopher Donald January 2006 (has links) This thesis describes a novel harmonic domain approach for assessing the steady state performance of Flexible AC Transmission System (FACTS) devices. Existing harmonic analysis techniques are reviewed and used as the basis for a novel iterative harmonic domain model for PWM FACTS devices. The unified Newton formulation adopted uses a combination of positive frequency real valued harmonic and three-phase fundamental frequency power-flow mismatches to characterise a PWM converter system. A dc side mismatch formulation is employed in order to reduce the solution size, something only possible because of the hard switched nature of PWM converters. This computationally efficient formulation permits the study of generalised systems containing multiple FACTS devices. This modular PWM converter block is applied to series, shunt and multi-converter FACTS topologies, with a variety of basic control schemes. Using a three-phase power-flow initialisation and a fixed harmonic Jacobian provides robust convergence to a solution consistent with time domain simulation. By including the power-flow variables in the full harmonic solution the model avoids unnecessary assumptions regarding a fixed (or linearised) operating point, fully modelling system imbalance and the associated non-characteristic harmonics. The capability of the proposed technique is illustrated by considering a range of harmonic interaction mechanisms, both within and between FACTS devices. In particular, the impact of transmission network modelling and operating point variation is investigated with reference to ac and dc side harmonic interaction. The minor role harmonic distortion and over-modulation play in the PWM switching process is finally considered with reference to the associated reduction in system linearity. Electric power system modelling Harmonic distortion Harmonic domain analysis FACTS
40	Power-Electronics-Enabled Transient Stabilization of Power Systems Cvetkovic, Milos 01 December 2013 (has links) Transient stability of electric energy grids is defined as the ability of the power system to remain in synchronism during large disturbances. If the grid is not equipped with controllers capable of transiently stabilizing system dynamics, large disturbances could cause protection to trigger disconnecting the equipment and leading further to cascading system-wide blackouts. Today’s practice of tuning controllers generally does not guarantee a transiently stable response because it does not use a model for representing system-wide dynamic interactions. To overcome this problem, in this thesis we propose a new systems modeling and control design for provable transient stabilization of power systems against a given set of disturbances. Of particular interest are fast power-electronically-controlled Flexible Alternating Current Transmission System (FACTS) devices which have become a new major option for achieving transient stabilization. The first major contribution of this thesis is a framework for modeling of general interconnected power systems for very fast transient stabilization using FACTS devices. We recognize that a dynamic model for transient stabilization of power systems has to capture fast electromagnetic dynamics of the transmission grid and FACTS, in addition to the commonly-modeled generator dynamics. To meet this need, a nonlinear dynamic model of general interconnected electric power systems is derived using time-varying phasors associated with states of all dynamic components. The second major contribution of this thesis is a two-level approach to modeling and control which exploits the unique network structure and enables preserving only relevant dynamics in the nonlinear system model. This approach is fundamentally based on separating: a) internal dynamics model for ensuring stable local response of components; b) system-level model in terms of interaction variables for ensuring stability of the system when the components are interconnected. The two levels can be controlled separately which minimizes the need for communication between controllers. Both distributed and cooperative ectropy-based controllers are proposed to control the interaction-level of system dynamics. Proof of concept simulations are presented to illustrate and compare the promising performance of the derived controllers. Some of the most advanced FACTS industry installations are modeled and further generalized using our approach. Power Systems Stability and Control Transient Stabilization Power- electronics FACTS Devices

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