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A remotely controlled power quality test platform for characterizing the ride-through capabilities of adjustable speed drivesMatheson, Evelyn 08 June 2001 (has links)
With the increased attention on high efficiency and controllability of industrial processes, as
well as reduced weight, volume and cost of consumer products, the applications of nonlinear
power electronic converters such as adjustable speed drives (ASDs) are showing a rapid rise.
Power Quality (PQ) is becoming an increasing concern with the growth of both sensitive and
disturbing nonlinear loads in the residential, commercial and industrial levels of the power
system, where PQ related disruptions can cause system malfunction, product loss, and hardware
damage resulting in costly data loss and downtime. Investigating and mitigating PQ issues
pertaining to the input supply of ASDs and other sensitive power electronic equipment is
extremely important in maintaining a high level of productivity.
In response to these concerns, this research focuses on the development of a power quality
test platform (PQTP) that has been implemented at Oregon State University (OSU), in the Motor
Systems Resource Facility (MSRF). The central component of the PQTP is a 120kVA
programmable ac power source with an integrated arbitrary waveform generator (AWG) which
creates realistic voltage disturbance conditions that can be used to characterize ride-through
capabilities of industrial processes in a controlled environment. Also presented is a command
driver database that has been created and tested, using Lab VIEW, which contains the
functionality necessary to conduct a wide range of power quality research and testing projects by
remotely configuring and controlling the AWG.
The power quality research and testing capabilities of the PQTP are demonstrated with ASD
diode-bridge rectifier operation analysis and ride-through characterization. This research shows
the transition of an ASD's three-phase diode rectifier into single-phase diode rectifier operation
when relatively small single-phase voltage sags are applied to the input. Also shown are ride-through
characterizations of varying sizes and configurations of ASDs when subjected to single,
two, and three-phase voltage sags as well as capacitor switching transients. In addition, ASD
topologies providing improved ride-through capabilities are determined. / Graduation date: 2002
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Power quality study in Macau and virtual power analyzerTai, Sio Un January 2012 (has links)
University of Macau / Faculty of Science and Technology / Department of Electrical and Computer Engineering
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Design and control of a Universal Custom Power Conditioner (UCPC)Newman, Michael John, 1976- January 2003 (has links)
Abstract not available
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Real-time power system disturbance identification and its mitigation using an enhanced least squares algorithmManmek, Thip, Electrical Engineering & Telecommunications, Faculty of Engineering, UNSW January 2006 (has links)
This thesis proposes, analyses and implements a fast and accurate real-time power system disturbances identification method based on an enhanced linear least squares algorithm for mitigation and monitoring of various power quality problems such as current harmonics, grid unbalances and voltage dips. The enhanced algorithm imposes less real-time computational burden on processing the system and is thus called ???efficient least squares algorithm???. The proposed efficient least squares algorithm does not require matrix inversion operation and contains only real numbers. The number of required real-time matrix multiplications is also reduced in the proposed method by pre-performing some of the matrix multiplications to form a constant matrix. The proposed efficient least squares algorithm extracts instantaneous sine and cosine terms of the fundamental and harmonic components by simply multiplying a set of sampled input data by the pre-calculated constant matrix. A power signal processing system based on the proposed efficient least squares algorithm is presented in this thesis. This power signal processing system derives various power system quantities that are used for real-time monitoring and disturbance mitigation. These power system quantities include constituent components, symmetrical components and various power measurements. The properties of the proposed power signal processing system was studied using modelling and practical implementation in a digital signal processor. These studies demonstrated that the proposed method is capable of extracting time varying power system quantities quickly and accurately. The dynamic response time of the proposed method was less than half that of a fundamental cycle. Moreover, the proposed method showed less sensitivity to noise pollution and small variations in fundamental frequency. The performance of the proposed power signal processing system was compared to that of the popular DFT/FFT methods using computer simulations. The simulation results confirmed the superior performance of the proposed method under both transient and steady-state conditions. In order to investigate the practicability of the method, the proposed power signal processing system was applied to two real-life disturbance mitigation applications namely, an active power filter (APF) and a distribution synchronous static compensator (D-STATCOM). The validity and performance of the proposed signal processing system in both disturbance mitigations applications were investigated by simulation and experimental studies. The extensive modelling and experimental studies confirmed that the proposed signal processing system can be used for practical real-time applications which require fast disturbance identification such as mitigation control and power quality monitoring of power systems
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An adaptive low dc-voltage controlled LC coupling hybrid active power filter in three-phase four-wire power systemsLam, Chi Seng January 2012 (has links)
University of Macau / Faculty of Science and Technology / Department of Electrical and Computer Engineering
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Improvement of steady state and voltage stability of a strong network overlayed with higher voltage transmission lines using phase shifting transformers.Molapo, Reentseng Majara. January 2011 (has links)
This research work deals with the application of the phase shifting transformer in improving the steady state performance and voltage stability of transmission network that has transmission lines at different voltage levels running in parallel to each other. Transmission power system networks are usually developed using lines built at a certain voltage level initially. As power demand requirements increase, building of the new lines at the same voltage level becomes necessary. However, lesser and lesser improvements in transfer capacity are realised when the additional lines are built. This prompts utilities to consider higher voltages for future lines as these have a higher transfer capacity. Utilities usually lay, i.e., they build in parallel, newer, higher voltage transmission lines along side the existing lower voltage ones. Power flow in power system is mainly influenced by impedances of equipment. If the combined impedance of the existing, lower voltage transmission system is relatively less than the impedance of the newer, higher voltage ones, power may primarily flow through it rather than via the newer, parallel higher voltage transmission network. This may lead to a serious underutilisation of the newer infrastructure with a higher transmission capacity. Transmission networks similar to the one described above are common throughout the world. This study was undertaken towards finding solutions to the problem of under utilisation of such transmission lines. The study was performed by first reviewing the literature on the use of phase shifting transformers to redirect power flow in transmission networks throughout the world. This was followed by analysis of the theory on how and what determines the power flow in power networks. Several simulations of varying the phase of the phase shifting transformer were performed on the Cape network, as a case study, to investigate the impact on the power flow distribution and voltage stability performance of the 765 kV and 400 kV transmission lines carrying power to the Western Cape. In this dissertation, it has been demonstrated that a phase shifting transformer can be used to alter the power flow patterns so that power flows are restructured or redistributed, such that power which originally flowed via the low impedance, lower voltage system is transferred to the parallel higher voltage transmission system of lines. It is shown that once the power flows are redistributed, steady state and voltage stability performance of the total system can be enhanced and an increase in its power transfer capacity can be realised. / Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2011.
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Real-time power system disturbance identification and its mitigation using an enhanced least squares algorithmManmek, Thip, Electrical Engineering & Telecommunications, Faculty of Engineering, UNSW January 2006 (has links)
This thesis proposes, analyses and implements a fast and accurate real-time power system disturbances identification method based on an enhanced linear least squares algorithm for mitigation and monitoring of various power quality problems such as current harmonics, grid unbalances and voltage dips. The enhanced algorithm imposes less real-time computational burden on processing the system and is thus called ???efficient least squares algorithm???. The proposed efficient least squares algorithm does not require matrix inversion operation and contains only real numbers. The number of required real-time matrix multiplications is also reduced in the proposed method by pre-performing some of the matrix multiplications to form a constant matrix. The proposed efficient least squares algorithm extracts instantaneous sine and cosine terms of the fundamental and harmonic components by simply multiplying a set of sampled input data by the pre-calculated constant matrix. A power signal processing system based on the proposed efficient least squares algorithm is presented in this thesis. This power signal processing system derives various power system quantities that are used for real-time monitoring and disturbance mitigation. These power system quantities include constituent components, symmetrical components and various power measurements. The properties of the proposed power signal processing system was studied using modelling and practical implementation in a digital signal processor. These studies demonstrated that the proposed method is capable of extracting time varying power system quantities quickly and accurately. The dynamic response time of the proposed method was less than half that of a fundamental cycle. Moreover, the proposed method showed less sensitivity to noise pollution and small variations in fundamental frequency. The performance of the proposed power signal processing system was compared to that of the popular DFT/FFT methods using computer simulations. The simulation results confirmed the superior performance of the proposed method under both transient and steady-state conditions. In order to investigate the practicability of the method, the proposed power signal processing system was applied to two real-life disturbance mitigation applications namely, an active power filter (APF) and a distribution synchronous static compensator (D-STATCOM). The validity and performance of the proposed signal processing system in both disturbance mitigations applications were investigated by simulation and experimental studies. The extensive modelling and experimental studies confirmed that the proposed signal processing system can be used for practical real-time applications which require fast disturbance identification such as mitigation control and power quality monitoring of power systems
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Development of methods for distribution network power quality variation monitoringNduku, Nyaniso Prudent January 2009 (has links)
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2009 / The purpose of this project is to develop methods for distribution network power quality'
variations monitoring. Power quality (PO) has become a significant issue for both power
suppliers and customers. There have been important changes in power system regarding to
power quality requirements. "Power quality" is the combination at voltage quality and current
quality. The main research problem of the project is to investigate the power quality of a
distribution network by selection of proper measurement, applying and developing the
existing classic and modern signal conditioning methods for power disturbance's parameters
extracting and monitoring. The research objectives are:
To study the standard lEC 61000-4-30 requirements. to investigate the common
couplings in the distribution network.
To identity the points for measurement, to develop MySQL database for the data from
the measurement and to develop MATLAB software tor simulation of the network
To develop methods based on Fourier transforms for estimation of the parameters of
the disturbances.
To develop software for the methods implementation,
The influence of different loads on power quality disturbances are considered in the
distribution network. Points on the network and meters according to the lEC power quality
standards are investigated and applied for the CPUT Bellville campus distribution network.
The implementation of the power quality monitoring for the CPUT Bellville campus helps the
quality of power supply to be improved and the used power to be reduced.
MATLAB programs to communicate with the database and calculate the disturbances and
power quality parameters are developed.
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Customer satisfaction analysis of Conlog electricity prepayment meters in KwaZulu-Natal : a customer perspectiveGina, Mondli January 2016 (has links)
Submitted in fulfillment of the requirement for the Degree of Master of Management Sciences Specialising in Business Administration, Durban University of Technology, Durban, South Africa, 2017. / In the electricity prepayment metering industry the continuous increase in customers’ expectations and technological innovation demand that leading firms in the industry differentiate themselves from the competition by going beyond customers’ present expectations. Thus, organizations which have set their goals on mere customer satisfaction are, from a customers’ perspective, deemed to be of limited value and may subsequently lack the anticipation and preparation essential to meet the demands of the future. Electricity prepayment metering market competition today is forcing organisations to seek the means to gain customer satisfaction, and thus aim to sustain their future in times of economic instability.
The study revealed that the most effective way to retain customer satisfaction is consistent service quality that decreases the cost of attracting new customers and raises sales and market share. The quality of service is one of the most effective factors in creating competitive advantages and advance business. Factors that influence customer satisfaction in the electricity prepayment industry were investigated and tested. The study also attempted to identify the critical factors, as identified in the literature, among those investigated: service quality, customer expectations, customer perception and customer retention.
Against this background, the study sought to determine the interrelationship between customer satisfaction and the critical factors of customer satisfaction with Conlog Electricity Prepayment Meters in KwaZulu-Natal. The research developed to ascertain subjects’ perceptions of the critical factors of customer satisfaction; determine the interrelationship among the critical factors of customer satisfaction; and explore the relationship between customer satisfaction and the critical factors of customer satisfaction.
The research population comprising of Conlog electricity prepayment metering customers in KwaZulu-Natal was selected and interviewed. Questionnaires were distributed through electronic mail and self-administered for data collection and a sample of twelve respondents was selected for interview. Interviews were analysed using conversational analysis and the data collected from the interviews were merged with the questionnaire data, seeking depth as well as breadth. Data collected from respondents was analysed using descriptive and inferential statistical techniques. The tool utilised to analyze data was the Statistical Package for the Social Sciences (SPSS) version 22 (SPSS Inc., Chicago, Illinois, USA). A p value < 0.05 was considered as statistically significant. Conclusions and recommendations were drawn from the literature and the findings of the study.
The results of the study revealed that service quality is the most significant critical factor of customer satisfaction. The study recommends that the management of Conlog can use the specific data obtained from the measurement of service quality in their strategies and plans. The study further recommends that Conlog allocates resources to this effect to provide better service to their customers. The results and findings of the study will provide further information concerning customer satisfaction and customer perception in the prepayment metering industry in KwaZulu-Natal. It will also contribute to future industry research, setting the ground for further research in measuring levels of customer satisfaction in the electricity prepayment industry in South Africa. / M
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Fluxo de carga trifásico para análise de distorções harmônicas em redes de distribuição de energia elétrica / Three-phase power flow for harmonic distortion analysis in power distribution networksDuque, Marina Borges 22 August 2018 (has links)
Orientador: Carlos Alberto Favarin Murari / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-08-22T04:03:37Z (GMT). No. of bitstreams: 1
Duque_MarinaBorges_M.pdf: 1960535 bytes, checksum: 1d0e3bb5b148b1377f1e8e33d3ab25ac (MD5)
Previous issue date: 2013 / Resumo: Para garantir o bom desempenho das redes de distribuição de energia elétrica, bem como aumentar a qualidade dos serviços prestados aos consumidores, faz-se necessário o desenvolvimento e a implementação de metodologias que permitam avaliar tanto os custos como os benefícios que trazem as diferentes alternativas de projeto propostas e os seus impactos no sistema como um todo, mantendo sempre aceitáveis os índices de qualidade e confiabilidade do fornecimento aos diferentes consumidores: residencial, comercial e industrial. Nesse contexto, um programa computacional que realize o cálculo dos fluxos de potência é uma ferramenta imprescindível na análise dos sistemas elétricos de potência tendo-se como principais grandezas de interesse, as tensões nas diferentes barras e os fluxos de potência ativa e reativa em todos os componentes da rede elétrica (linhas, transformadores, etc.). E como a maior parte das redes de distribuição de energia elétrica é trifásica, é de fundamental importância adotar uma formulação trifásica que represente de forma adequada os desequilíbrios, e, portanto nesta dissertação é apresentada uma versão de fluxo de carga trifásico baseada no Método Iterativo de Correção de Tensão com possibilidade de inserção de cargas não lineares para contemplar as frequências harmônicas e assim obter o estado da rede (magnitude e ângulo das tensões nodais) e também de outras grandezas elétricas contemplando os efeitos causados por cargas não lineares, com ênfase para o motor de indução trifásico / Abstract: To ensure a good performance of power distribution networks as well as to increase the quality of services provided for the consumers, it is necessary the development and implementation of methodologies to assess the costs and the benefits of the different operating alternatives and their impacts on the system as a whole, while maintaining acceptable levels of quality and the reliability of electricity supply to the various consumers: residential, commercial and industrial. In this context, a computer program that performs the calculation of power flows is an essential tool in the analysis of electrical power systems having as main quantities of interest - nodal voltages and active and reactive power flows - at all electrical network components (lines, transformers, etc.). Once the electrical distribution networks are three-phase, it is crucial to adopt a three-phase formulation that adequately represents the load unbalance. We propose a version of a three-phase load flow based on the Voltage Correction Iterative Method with the possibility of including non-linear loads - with emphasis for three-phase induction motor - to simulating harmonic frequencies and getting the corresponding node voltages and other electrical quantities / Mestrado / Energia Eletrica / Mestra em Engenharia Elétrica
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