Global ETD Search

91	A MODULAR ELECTRICAL POWER SYSTEM ARCHITECTURE FOR SMALL SPACECRAFT Lim, Timothy M. 01 January 2016 (has links) Small satellites and CubeSats have established themselves within the aerospace community because of their low cost and high return on investment. Many CubeSats are developed in a short time frame and often leverage commercial off the shelf components for quick turnaround missions. With regard to the Electrical Power System, commercially available products typically use a centralized architecture. However, a centralized architecture is not reusable, since missions that require additional solar arrays or batteries would necessitate a redesign of the power system. With the range of CubeSat sizes and mission goals, it is obvious that a one-size-fits-all solution is not appropriate. This thesis details a reusable and scalable power system architecture applicable to a variety of missions. Reusability is achieved by using common building blocks or "modules," where the same modules can be used between missions. Scalability is achieved by not limiting the number of modules that can be connected together—more modules can be added as needed. In this system, solar arrays and battery units connect directly to a common bus, supplying an unregulated voltage to each subsystem. These subsystems then regulate the bus voltage to their individual needs. The power system also features direct energy transfer and solar-only operation. Small Satellites CubeSats Electrical Power System Direct Energy Transfer Distributed Power System Electrical and Electronics
92	Proposição de um sistema para simulação de faltas de alta impedância em redes de distribuição. / Proposition of a system for simulation of high impedance faults in distribuition networks. Renato Mikio Nakagomi 17 October 2006 (has links) Um dos problemas mais graves e preocupantes que ocorrem em redes de distribuição é a falta de alta impedância proveniente do rompimento e conseqüente queda do condutor primário. Devido ao seu alto grau de periculosidade, é fundamental que tal fenômeno seja exaustivamente analisado e pesquisado. Com a evolução da tecnologia digital, os programas de simulação computacional se tornaram grandes aliados nas pesquisas em proteção de sistemas elétricos. A partir do estudo de modelos já desenvolvidos e testados de faltas de alta impedância em redes de distribuição, o presente trabalho realiza uma análise deste tipo de falta e discute a implementação de um modelo de fácil configuração e adaptável a diferentes cenários. Mais do que isso, este trabalho se propõe a desenvolver uma interface computacional propícia para viabilizar este tipo de estudo em redes de distribuição, dada a necessidade de se obter uma ferramenta que possibilite a automatização do processo de simulação deste fenômeno. Com o resultado deste trabalho será possível testar e validar esquemas de proteção contra faltas de alta impedância ocasionadas por rompimento e queda de condutor primário em redes de distribuição, bem como auxiliar no desenvolvimento e implementação de novos algoritmos de detecção deste tipo de falta. / The high impedance fault caused by the broken and fallen conductor is one of the most hazardous and worrying problems that occur in distribution network. Due to its high harmful level it is necessary to analyze and research such phenomenon exhaustingly. The evolution of digital technology allowed the development of computing simulation software that became a great ally to the research of electrical systems protective devices. Based on the study of already developed and tested high impedance fault models the present work revisits this type of fault and discuss the implementation of an easy configureable model that is adaptable to different scenarios. Beyond this, the present work also proposes to develop a proper computing interface in order to make the study of such faults at distribution network viable once it is necessary to have a tool that allows the automation of high impedance fault simulating process. The results of thiswork will allowto test and validate protective schemes against high impedance faults caused by the breakdown and fall of primary conductors at distribution network systems, as well as they will be helpful when developing and implementing new algorithms for detection of such kind of fault. Proteção de sistemas elétricos Power system distribuition network Power system protection
93	Självförsörjande elgenerering : Kan Orust bli självförsörjande på förnybar el? / Self-sufficient electricity generation on Orust Lundqvist, Viktor January 2015 (has links) Orust Kretsloppsakademi is a nonprofit organisation, with a goal of annually generate the same amount of electrical energy that is consumed. Orust is an island on the west coast of Sweden, north of Gothenburg. The population of 15 000 reaches 40 000 during summer, due to the large amount of vacationer. The total electricity demand is 174 GWh a year with a maximum power need of 32 MW. This report presents an analysis for the plausibility of their plan and from a power system stability perspective, the effects on the electrical grid. The conclusion is that the restraints for development of power generation from wind, solar and wave generation, are the power systems capability to transfer power, primarily in the transformers of the grid. Various actions, such as constraints of power output at certain times, and clever location of generation facilities, reduces the utilisation rate of the line segments. In order to substantially decrease the utilisation rate of the line segments, the actions need to be combined. Executed simulations showed that Orust needs to be provided with reactive power, even if Orust is self-sufficient of active power, through its connection to the Swedish power system. The need for reactive power decreased when the feeding transformer allowed a reduced voltage in the regional network. Additionally, generation of reactive power could further increase the possibility for Orust to become self-sufficient on electricity generation. renewable electricity generation power system stability power system self-sufficient förnybar elgenerering nätstabilitet lokal elsystem självförsörjande
94	Comprehensive framework for assessment of the contribution of demand response and electrical energy storage to power system adequacy of supply Zhou, Yutian January 2016 (has links) There are presently worldwide targets for decreasing anthropogenic greenhouse gases (GHGs) emissions owing to global climate change concerns. Here in the United Kingdom, the government has committed to reduce its GHGs emissions by at least 80% by 2050 relative to 1990 levels. In order to achieve the ambitious 2050 targets and minimise cumulative emissions along the way, modern power systems are facing a series of great challenges. These challenges include extensive utilisation of renewable generation, diverse demand--side participation in power system operation and planning, as well as considerable application of emerging smart devices and appliances. All of these challenges will significantly increase the complexity of future power systems in terms of both operation and design. Regardless, the primary objective of power systems remains the same. That is the system must supply all the customers (responsive ones and non-responsive ones) with electricity as economically as possible and with an adequate level of continuity and quality. With the widespread utilisation of smart meters and appliances as well as the large-scale installation of different storage technologies, the services that demand response (DR) and electrical energy storage (EES) resources can provide will cover a wide range of ancillary services. More importantly, the grid-scale penetration of DR and EES resources is able to provide energy management and capacity support services, which can be considered as the alternative to generation resources. In this light, considerable amount of research has been done focusing on engaging particular types of electricity users with different kinds of incentives and/or tariff schemes, so that the economic benefits to both utilities and customers are optimised. However, no general framework for systematic assessment of the contribution to power system adequacy of supply from potential grid-scale penetration of DR and EES resources is available up till now, particularly taking specific consideration of DR's flexibility and payback characteristics as well as EES's operational parameters. The research work in this thesis therefore emphasises exclusively on the potential of grid-scale DR and EES resources to serve as alternative resources to electricity generation within the context of power system adequacy of supply. More specifically, based on literature survey of existing studies in similar topics, this thesis has made some substantial contributions and innovations, such as developing novel models of these emerging demand-side resources, implementing a systematic adequacy of supply assessment with new aspect to measure the level of adequacy of supply (new indices), proposing a novel and comprehensive framework for evaluation of the capacity credit of DR and EES, and analysing the economic value based on power system fundamental long--term costs of interruption and supply. Ultimately, this thesis has established a comprehensive framework for assessment of the contribution of DR and EES to power system adequacy of supply. Additionally, the numerical studies carried out in this thesis have enabled the inference of general adequacy of supply implications in terms of deploying DR and EES resources to provide capacity support to power systems.
95	Evaluation and Mitigation of Power System Oscillations Arising from High Solar Penetration January 2015 (has links) abstract: An important operating aspect of all transmission systems is power system stability and satisfactory dynamic performance. The integration of renewable resources in general, and photovoltaic resources in particular into the grid has created new engineering issues. A particularly problematic operating scenario occurs when conventional generation is operated at a low level but photovoltaic solar generation is at a high level. Significant solar photovoltaic penetration as a renewable resource is becoming a reality in some electric power systems. In this thesis, special attention is given to photovoltaic generation in an actual electric power system: increased solar penetration has resulted in significant strides towards meeting renewable portfolio standards. The impact of solar generation integration on power system dynamics is studied and evaluated. This thesis presents the impact of high solar penetration resulting in potentially problematic low system damping operating conditions. This is the case because the power system damping provided by conventional generation may be insufficient due to reduced system inertia and change in power flow patterns affecting synchronizing and damping capability in the AC system. This typically occurs because conventional generators are rescheduled or shut down to allow for the increased solar production. This problematic case may occur at any time of the year but during the springtime months of March-May, when the system load is low and the ambient temperature is relatively low, there is the potential that over voltages may occur in the high voltage transmission system. Also, reduced damping in system response to disturbances may occur. An actual case study is considered in which real operating system data are used. Solutions to low damping cases are discussed and a solution based on the retuning of a conventional power system stabilizer is given in the thesis. / Dissertation/Thesis / Masters Thesis Electrical Engineering 2015 Electrical engineering damping overvoltage photovoltaic generation power system stability power system stabilizer solar generation
96	Performance Enhancement of Power System Operation and Planning through Advanced Advisory Mechanisms January 2017 (has links) abstract: This research develops decision support mechanisms for power system operation and planning practices. Contemporary industry practices rely on deterministic approaches to approximate system conditions and handle growing uncertainties from renewable resources. The primary purpose of this research is to identify soft spots of the contemporary industry practices and propose innovative algorithms, methodologies, and tools to improve economics and reliability in power systems. First, this dissertation focuses on transmission thermal constraint relaxation practices. Most system operators employ constraint relaxation practices, which allow certain constraints to be relaxed for penalty prices, in their market models. A proper selection of penalty prices is imperative due to the influence that penalty prices have on generation scheduling and market settlements. However, penalty prices are primarily decided today based on stakeholder negotiations or system operator’s judgments. There is little to no methodology or engineered approach around the determination of these penalty prices. This work proposes new methods that determine the penalty prices for thermal constraint relaxations based on the impact overloading can have on the residual life of the line. This study evaluates the effectiveness of the proposed methods in the short-term operational planning and long-term transmission expansion planning studies. The second part of this dissertation investigates an advanced methodology to handle uncertainties associated with high penetration of renewable resources, which poses new challenges to power system reliability and calls attention to include stochastic modeling within resource scheduling applications. However, the inclusion of stochastic modeling within mathematical programs has been a challenge due to computational complexities. Moreover, market design issues due to the stochastic market environment make it more challenging. Given the importance of reliable and affordable electric power, such a challenge to advance existing deterministic resource scheduling applications is critical. This ongoing and joint research attempts to overcome these hurdles by developing a stochastic look-ahead commitment tool, which is a stand-alone advisory tool. This dissertation contributes to the derivation of a mathematical formulation for the extensive form two-stage stochastic programming model, the utilization of Progressive Hedging decomposition algorithm, and the initial implementation of the Progressive Hedging subproblem along with various heuristic strategies to enhance the computational performance. / Dissertation/Thesis / Doctoral Dissertation Electrical Engineering 2017 Electrical engineering Constraint relaxation Power system operations Power system planning Stochastic programming Transmission Expansion Planning
97	Real-time state estimation of a distributed electrical power system under conditions of deregulation Kusekwa, Mashauri A. D. January 2010 (has links) Thesis (DTech (Electrical Engineering))--Cape Peninsula University of Technology, 2010. / Static state estimation is a mathematical procedure in which physical measurements from sub-stations and physical model are combined in an optimal way. That is, the measurements obtained from the sub-stations are used with the physical model and the states of the power system are selected or calculated such that the states match the measurements in some best way. The states of a power system are the bus voltage magnitude and voltage angle of each bus of the system. Static state estimation is an increasingly common part of electrical power utility energy management systems (EMS). It plays a critical part in a day-to-day operation of a power system utility. The system measurements obtained from static estimation are used for realtime operations like optimal power flow calculations and contingency analysis. Proper system operations with regards to avoidance of insecure conditions includes situational awareness, therefore, the static estimator plays an important role in power system security. A further motivation: in increasingly electrical power deregulation, more economic operations mean savings for customers and electrical power provider alike. Economic benefit might be realized if system operators have a more accurate situational awareness of the system through improved power system state estimator. The objective of the study was to develop method, algorithm and MATLAB program for solution of power system state estimation using parallel processing techniques. In achieving the objective, the study has concentrated on development of an approximate Tanzanian power system network model comprising of 30 buses and used as a case study; decomposing the bus admittance matrix of the model into 3 interconnected sub-systems; development of mathematical model for real and reactive power injections, real and reactive power flows in the transmission lines and tie-lines connecting the sub-systems; development of measurement data model for voltage magnitude, real and reactive power injections, real and reactive power flows; formulating of a constrained weighted least absolute value state estimation problem; development of decomposition-coordination method and algorithm; and formulating algorithm and MATLAB program for solving the constrained state estimation problem using parallel processing technique. Electric measurements Electronic measurements Electric power system Electric power system -- Control MATLAB
98	Simulador interativo de estabilidade de usinas termelÃtricas de ciclo combinado para projetos, pesquisa e treinamento / Interactive simulation of stability of plants thermoelectric for combined cycle project, research and training Gabriel JosÃ Alves dos Santos 25 June 2012 (has links) CoordenaÃÃo de AperfeiÃoamento de NÃvel Superior / Neste trabalho foi desenvolvido o estudo e as aplicaÃÃes das condiÃÃes de estabilidade na operaÃÃo do sistema elÃtrico de potÃncia incorporado em um simulador interativo de usinas termelÃtricas de ciclo combinado, que permita melhorar os processos de treinamento e, consequentemente, o nÃvel de qualidade dos futuros operadores e mantenedores de usinas termelÃtricas, bem como manter atualizados os atuais operadores. Um pequeno conjunto de definiÃÃes e conceitos das Ãreas de âestabilidade, confiabilidade e anÃlise de desempenho de sistemas de potÃnciaâ Ã apresentado com o objetivo de distinguir a operaÃÃo no sistema de potÃncia. O simulador contempla a modelagem matemÃtica de 3Â e 6Â ordem das partes fÃsicas e elÃtricas da mÃquina sÃncrona, a modelagem de seus controladores projetados como compensador dinÃmico e mÃtodos numÃricos para a resoluÃÃo da equaÃÃo diferenciais. O cÃlculo dos parÃmetros Ã realizado atravÃs de um programa desenvolvido com a ferramenta computacional MATLAB e comparados aos implementados em uma UTCC. As simulaÃÃes e validaÃÃo de variaÃÃes dos modelos sÃo realizadas com os programas ANATEM - CEPEL para analisar a eficiÃncia do sistema projetado e avaliar a melhoria do desempenho dinÃmico do sistema. / This work was developed the study and application of conditions of stability in the operation of power system embedded in an interactive simulation of combined cycle power plants that will improve the training processes and therefore the quality of the future operators and maintainers of thermoelectric plants and keep up the current operators. A small set of definitions and concepts in the areas of "stability, reliability and performance analysis of power systems" is presented in order to distinguish the operation in the power system. The simulation includes the modeling of the 6th order of the parts of the physical and electrical synchronous machine, the modeling of its Controlled designed as dynamic and rewarding numerical methods for solving differential equation. The calculation of the parameters is accomplished through a program developed with MATLAB software tool and compared to those implemented at the plant. The simulations and validation of variations of the model are performed with the programs ANATEM - CEPEL to analyze the efficiency of the system designed to evaluate and improve the dynamic performance of the system. Engenharia elÃtrica Usinas termoelÃtricas Correntes elÃtricas Power system stability Power system operation SISTEMAS ELETRICOS DE POTENCIA
99	Hybrid Power System for Eluvaithivu Island Sri Lanka Ratneswaran, Kanagaratnam January 2011 (has links) Government of Sri Lanka has policy target to achieve 100% electrification by end of year 2012. Grid-based electrification is possible up to maximum 95% of the population in Sri Lanka. Balance 5% of the electrification has to be mainly depending on off-grid technologies such as solar PV, wind, biomass and micro hydro. Use of renewable based off-grid technologies is limited by the seasonal variation of the resource. This barrier could be overcome by coupling renewable based power generation technologies with a diesel generation thereby forming a hybrid power system. Given the comparatively higher investment cost, a hybrid power plant needs to be carefully designed and optimized to generate electricity at competitive prices. There are some Isolated Islands located in the Jaffna Peninsula (Northern part of Sri Lanka) called Eluvaithivu, Analaithivu, Nainathivu and Delft Islands. These islands are far away from mainland. At present diesel generators are supplying electricity to these islands for limited hours. Electrification rate of these islands are very low due to the Grid limitations. Also cost of electricity generation is very high due to the high diesel price. The main objective of the present study is “Selection of optimized mix of renewable based power generation technologies to form a mini-grid and to supply reliable, cost effective electricity supply to the people living in Eluvaithivu Island’ and thereby support the 100% electrification target by Govt. of Sri Lanka in 2012. Data collection, survey has been conducted in the Eluvaithivu Island to find out the status of present system, priority needs, resource data and load data to propose suitable power system for this Island. An extensive analyse was conducted using HOMER software model and the result is presented in the report. Optimum design emerges as a wind-diesel hybrid power system having wind turbines generator, diesel generators, battery bank, converter and a hybrid controller. The result revealed that the economic viability of the project, in the form of a community owned wind-diesel hybrid power system operated on cost-recovery basis is not feasible. But it is an attractive option for CEB to reduce its long term losses on diesel fuel. In other words, if CEB implement this project, it would be an ideal win-win situation where both the CEB and the island community are benefited. Hybrid power system Renewable Energy Micro Grid Isolated power system Energy Engineering Energiteknik
100	Differential relay model development and validation using real time digital simulator Vijapurapu, Vamsi Krishna 13 December 2008 (has links) The protection system in a shipboard power system plays a vital role in detecting the fault conditions, isolating the faulted zone and preventing the fault propagation into other vital sections onboard the ship. The protection system should be able to remove faults and restore the service to all the vital loads rapidly. In order to design the protection system, preliminary hardware-in-the-loop testing is done using bus differential relay hardware and a Real Time Digital Simulator (RTDS). In this thesis work, based upon the functionalities of the relay hardware the software differential relay model is designed and simulated using the RSCAD Version 2.00 software suite and RTDS. The software differential relay model developed in RSCAD was tested on a terrestrial power system and a shipboard power system test case for various fault conditions, and its functionalities are validated based upon the hardware-in-the-loop test results. SEL-487B Shipboard Power System Terrestrial Power System Differential Relay RTDS

Search results