Global ETD Search

51	Diseño de un sistema de bombeo solar para almacenamiento de agua usada en sistemas de riego en zonas agrícolas aisladas Vilchez Cornejo, Luis Gerardo January 2024 (has links) En el presente trabajo de investigación se diseñó un sistema de bombeo solar para almacenamiento de agua en sistemas de riego en zonas agrícolas aisladas con ayuda del software PVsyst. En el área de estudio actualmente para el riego del limón utilizan motores de combustión interna, originando costos elevados de combustible, mantenimiento y operación, además generando emisiones de 𝐶𝑂2 provocando la contaminación ambiental. Ante lo mencionado surge la alternativa de la aplicación de la energía solar fotovoltaica para el riego y proyectándose hacia el futuro a cosechar también espárrago, palta y arándanos; para ello se realizó una evaluación de niveles de radiación solar utilizando el software RETScreen, Meteonorm, CropWat y mediciones in situ, obteniendo 5,80 𝑘𝑊ℎ/𝑚 2/𝑑í𝑎 correspondiente al mes de julio, mes más crítico del año. En el diseño también incluye cálculos de evapotranspiración, demanda hídrica, caudal de bombeo, altura manométrica, longitud de la tubería, volumen del reservorio y diámetro de la tubería, para así poder definir los componentes del sistema de bombeo solar. Para este sistema se seleccionó una bomba sumergible de la marca Lorentz, 08 paneles solares de la marca Trina Solar de 405 𝑊, un controlador de la marca Lorentz y un reservorio de geomembrana aprovechando las características del terreno. Para la elaboración de los planos respectivos se utilizó se software AutoCAD. La evaluación económica resulto dar un 𝑉𝐴𝑁 = 𝑆/. 32 760,78, una 𝑇𝐼𝑅 = 19,91% y un tiempo de retorno de 5,33 años de asegurando la factibilidad del proyecto. / In this research work, a solar pumping system was designed for water storage in irrigation systems in isolated agricultural areas with the help of the PVsyst software. In the study area, internal combustion engines are currently used for lemon irrigation, causing high fuel, maintenance and operation costs, also generating 𝐶𝑂2 emissions, causing environmental pollution. Given the aforementioned, the alternative of applying photovoltaic solar energy for irrigation arises and planning in the future to also harvest asparagus, avocado and blueberries; For this, an evaluation of solar radiation levels was carried out using the RETScreen, Meteonorm, CropWat software and in situ measurements, obtaining 5,80 𝑘𝑊ℎ/𝑚 2 /𝑑𝑎𝑦 corresponding to the month of July, the most critical month of the year. The design also includes calculations of evapotranspiration, water demand, pumping flow, manometric head, pipe length, reservoir volume and pipe diameter, in order to define the components of the solar pumping system. For this system, a Lorentz brand submersible pump was selected, 08 Trina Solar brand solar panels of 405 𝑊, a Lorentz brand controller and a geomembrane reservoir taking advantage of the characteristics of the terrain. AutoCAD software is used to prepare the respective plans. The economic evaluation resulted in an 𝑁𝑃𝑉 = 𝑆/. 32 760,78, an 𝐼𝑅𝑅 = 19,91% and a payback time of 5,33 years, ensuring the feasibility of the project. Bombeo solar Energía fotovoltaica Sistema de riego agrícola Solar pumping Photovoltaic energy Agricultural irrigation system
52	Modélisation et analyse expérimentale d'une centrale solaire photovoltaïque en milieu désertique maritime / Modeling and experimental analysis of a solar photovoltaic plant in a desert maritime environment Hassan Daher, Daha 06 November 2017 (has links) L'objectif de ce travail a été de développer un modèle pour prédire le comportement d'une installation photovoltaïque (PV) dans une zone désertique maritime, afin d'optimiser la production instantanée et de maintenir les performances au fil du temps. Les données issues du monitoring d’une centrale solaire ont été analysées afin d’en extraire des indicateurs de performances et d’étudier l'impact des facteurs climatiques (température, irradiation et dépôts de poussière). Les méthodes d'analyse de performance, telles que la "transposition aux conditions de référence" (Ex. PVUSA) et "estimation des mesures de performance" (Ex. PR) ont été appliquées pour évaluer le taux de dégradation annuel de l'installation. Une première indication de la durée de vie des installations PV pour le climat de Djibouti a été obtenue, ainsi qu'une capacité à prédire l'évolution à long terme de cette centrale et des futures installations PV. Parallèlement, un modèle numérique de l'installation PV a été construit en utilisant TRNSYS, incluant les modules et les onduleurs, pour retranscrire le comportement du système PV dans son ensemble, ainsi que les conditions environnementales dans lesquelles il évolue. Le modèle inclus dans la bibliothèque TRNSYS a été amélioré à l'aide de résultats expérimentaux, en particulier en ce qui concerne la dépendance thermique. Un modèle prédictif a donc été développé combinant l'accumulation de poussière, un modèle empirique de températures et de dégradation du module. Enfin, une étude paramétrique a été réalisée avec le modèle complet, afin d'évaluer l'impact du nettoyage pour divers scénarios d’empoussièrement. Les résultats contribueront à l'optimisation de la conception et de l'exploitation des centrales solaires dans ce type de climat. / The objective of this work has been to develop a model for the behavior of a photovoltaic (PV) plant in an arid zone, to optimize instantaneous production and maintain performance over time. Monitoring data were collected for a solar power plant, which were then studied to infer the impact of climatic factors (temperature, irradiation and dust deposits). Performance analysis techniques including "transposition to reference conditions" (eg. PVUSA) and "estimation of standard performance measures" (eg. PR) were applied to evaluate the annual degradation rate of the facility. A first indication of expected lifetime of PV installations for the climate of Djibouti was thus obtained, as well as a capacity to predict the long-term evolution of the plant and future installations. In parallel, a numerical model of the photovoltaic installation was constructed using TRNSYS, including the modules and inverters, to transcribe the behavior of the PV system as a whole, and also the environmental conditions in which it evolves. The model included in the standard TRNSYS library was improved with the aid of experimental results, in particular with regards the thermal dependence. A predictive model was thus developed combining dust accumulation, an empirical model of module temperatures and degradation. Finally, a parametric study was undertaken with the complete model, to evaluate the impact of cleaning schedules under various dust scenarios. The results will contribute to the optimization of solar power plant design and operation in this type of climate. Photovoltaique Energie photovoltaïque Energie solaire photovoltaïque Centrale solaire Désert maritime Réseau électrique Analyse de performance Photovoltaic Photovoltaic Energy Solar Energy Solar central Maritim desert Power grid Performance analysis 621.470 72
53	Perspectivas de inser??o da energia solar fotovoltaica na gera??o de energia el?trica no Rio Grande do Norte Wanderley, Augusto C?sar Fialho 30 August 2013 (has links) Made available in DSpace on 2014-12-17T14:56:16Z (GMT). No. of bitstreams: 1 AugustoCFW_DISSERT.pdf: 4069800 bytes, checksum: c488b0f09f064b7a5254eca8a4fff499 (MD5) Previous issue date: 2013-08-30 / The generation of electricity in Brazil is predominantly renewable, with internal hydraulic generation being more than 70% of its energy matrix. The electricity rationing occurred in 2001 due to lack of rain, led the country to increase the participation of alternative energy sources. This need for new sources of energy makes the regional potential to be exploited, which configures the change of generation model from centralized generation to distributed generation. Among the alternative sources of energy, the solar energy is presented as very promising for Brazil, given that most of its territory is located near to the equator line, which implies days with greater number of hours of solar radiation. The state of Rio Grande do Norte (RN) has one of the highest levels of solar irradiation of the Brazilian territory, making it eligible to receive investments for the installation of photovoltaic solar plants. This thesis will present the state-of-the-art in solar photovoltaic power generation and will examine the potential for generation of solar photovoltaic power in Brazil and RN, based on solarimetrics measurements conducted by various institutions and also measurements performed in Natal, the state capital / A gera??o de energia el?trica no Brasil ? predominantemente renov?vel, com a gera??o interna hidr?ulica sendo superior a 70% do total de sua matriz energ?tica. O racionamento de energia el?trica ocorrido em 2001, devido ? falta de chuvas, levou o pa?s a incrementar a participa??o de fontes alternativas de energia. Esta necessidade por novas fontes de energia faz com que as potencialidades regionais sejam aproveitadas, o que configura a mudan?a do modelo de gera??o, passando de gera??o centralizada para gera??o distribu?da. Dentre as fontes alternativas de energia, a solar apresenta-se como uma fonte bastante promissora para o Brasil, tendo em vista que a maior parte do seu territ?rio est? localizada pr?ximo ? linha do equador, o que implica em dias com maior quantidade de horas de radia??o solar. O Estado do Rio Grande do Norte (RN) tem um dos maiores ?ndices de incid?ncia solar do territ?rio brasileiro, o que o torna apto a receber investimentos para a instala??o de usinas solares fotovoltaicas. Esta disserta??o apresentar? o estado da arte em gera??o de energia solar fotovoltaica e analisar? o potencial de gera??o da energia solar fotovoltaica no Brasil e no RN, baseando-se em medi??es solarim?tricas realizadas por diversas institui??es e tamb?m em medi??es realizadas em Natal CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
54	Contribuições ao estudo de conexão de sistemas fotovoltaicos à rede elétrica sem filtros passivos: projeto de controladores digitais para redução do conteúdo harmônico Almeida, Pedro Machado de 29 November 2013 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-04-24T19:07:44Z No. of bitstreams: 1 pedromachadodealmeida.pdf: 10367147 bytes, checksum: 04b7cf913c75cb9f82395bf7b9769825 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-04-25T15:25:19Z (GMT) No. of bitstreams: 1 pedromachadodealmeida.pdf: 10367147 bytes, checksum: 04b7cf913c75cb9f82395bf7b9769825 (MD5) / Made available in DSpace on 2017-04-25T15:25:19Z (GMT). No. of bitstreams: 1 pedromachadodealmeida.pdf: 10367147 bytes, checksum: 04b7cf913c75cb9f82395bf7b9769825 (MD5) Previous issue date: 2013-11-29 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A presente tese contribui para a análise, modelagem e projeto de controladores discretos de um sistema de geração fotovoltaico de 30 kWp conectado à rede elétrica sem ﬁltros passivos. O conversor fonte de tensão (VSC) de interface é interligado a rede elétrica usando somente as indutâncias de dispersão de um banco de transformadores monofásicos como ﬁltros harmônicos. Modelos discretos são desenvolvidos tanto para o lado CC quanto para o lado CA do conversor. A modelagem do lado CA foi feita nos sistemas de coordenadas αβ0 e dq0. Já a modelagem da dinâmica do lado CC foi feita no sistema de coordenadas dq de acordo com balanço de potência entre os terminais do VSC. Baseado nos modelos obtidos, duas estratégias básicas foram investigadas e discutidas para projetar os compensadores discretos usados para controlar as correntes sintetizadas por um sistema de geração fotovoltaico no modo de corrente. Resultados experimentais mostram que o uso apenas de controladores lineares, proporcional–integral (PI) e proporcional–ressonante (PR), sintonizados na componente fundamental não é suﬁciente para manter a qualidade das correntes geradas dentro dos padrões internacionais, devido a operação não linear do transformador de conexão. Para contornar o problema anterior duas soluções foram investigadas: (i) inclusão de múltiplos controladores ressonantes nas coordenadas αβ; e (ii) inclusão de um controlador repetitivo em paralelo com o controlador PI nas coordenadas dq. Resultados experimentais mostraram que ambas estratégias são adequadas para compensar as componentes harmônicas. Finalmente, foi proposta uma estratégia para controlar o conversor durante faltas assimétricas (Fault–ride through) e eliminar as oscilações no barramento CC durante condições de desbalanço. O controlador proposto é composto por uma parcela PI e duas parcelas ressonantes, as quais controlam as componentes média e oscilante, através da injeção correntes de sequencia positiva e negativa na rede, respectivamente. Resultados de simulação mostram que o controlador proposto é adequado para eliminar as oscilações no barramento CC sem prejudicar as estabilidade do sistema. / The current thesis contributes to the analysis, modelling and design of discrete time controllers which aim is to control a 30 kWp photovoltaic dispersed generation system connected to the electric grid without passive ﬁlters. In fact, the interface voltage– sourced converter (VSC) is connected to the grid using only the leakage inductance of a single–phase transformer bank as harmonic ﬁlters. Initially, discrete time models are developed to the converter’s DC–side as well as to the AC–side. The AC–side modelling is performed on αβ0 and dq0 coordinate systems. On the other hand, the DC–side dynamics are modeled on the dq frame according to the power balance between the converter’s terminals. Based on the models obtained, strategies to control the converter in the current mode control on the αβ and dq are developed and a methodology to design the controllers are addressed in details. Experimental results shown that only the use of linear controllers, proportional–integral (PI) and proportional–resonant (PR), tuned on the fundamental component are not suﬃcient to guarantee the quality of the generated currents according to international standards. This is due to the operation of the connection transformer in a nonlinear region. In order to overcome this drawback, two solutions are taken into account: (i) inclusion of several parallel resonant controller in αβ frame; and (ii) inclusion of a repetitive controller in parallel with the PI controller in the dq frame. Experimental results shown that both strategies are suitable to compensate the harmonic components on the output current. Finally, a strategy is proposed to control the system under asymmetrical faults (fault–ride through) and to mitigate the voltage oscillation on the DC–side during unbalance conditions. The proposed controller is composed of a PI part and two resonant parts, which controls the average and the oscillating voltage components, through the injection of positive and negative sequence currents into the grid, respectively. Simulation results shown that the proposed controller is suitable to mitigate the DC–side voltage oscillations without jeopardizing the system stability. CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA Energia solar fotovoltaica Controle digital Controle no modo de corrente Controlador repetitivo Controlador ressonante Controle durante faltas assimétricas Solar photovoltaic energy Digital control Current-mode control Repetitive controller Resonant controller Fault-ride through control
55	Approches analytique et expérimentale de la convection naturelle en canal vertical : Application aux double-façades photovoltaïques / Analytical and experimental approaches of natural convection in vertical channel : Application to double-façade photovoltaic Li, Yiqin 06 January 2016 (has links) Dans le contexte énergétique actuel, le développement de l'énergie solaire passe par son développement à grande échelle en milieu urbain. Les solutions actives et intégrées telles que les double-façades photovoltaïques permettent d'une part d'envisager une valorisation de la chaleur et d'autre part de valoriser l'enveloppe des bâtiments en tant que surface de captation. De plus, cette configuration limite la perte de rendement et l'accélération du vieillissement liées à la surchauffe des cellules. En effet, les composants photovoltaïques sont séparés du bâtiment par une lame d'air et la convection naturelle développée dans cet espace favorise l'évacuation de la chaleur absorbée par les panneaux. Cependant, le comportement global d'une double-façade photovoltaïque est très complexe et encore mal compris. Cette thèse se focalise sur l'expérimentation du phénomène de la convection naturelle. Un banc d'essais, développé dans le cadre de la thèse de Daverat, modélise la double-façade par un canal vertical avec chauffage pariétal. Le fluide d'étude est de l'eau afin de s'affranchir du rayonnement entre parois et d'étudier le couplage conduction-convection. Le banc d'essais est constitué d'un canal vertical de 65cm de haut, chauffé à une densité de flux uniforme, plongé dans une cellule de 1,5m de haut remplie d'eau. L'écoulement est observé par des mesures de densité de flux de chaleur, de température pariétale et de vitesse, ces dernières étant réalisées par vélocimétrie par images de particules et par vélocimétrie laser Doppler. Deux configurations de chauffage sont étudiées : symétrique et asymétrique. Pour l'étude de la configuration avec un chauffage symétrique, les données expérimentales issues du travail de thèse de Daverat sont analysées par une approche zonale. Un découpage du canal est proposé et une analyse des ordres de grandeur permet de comprendre les observations expérimentales. Ainsi, cette analyse se focalise sur le transfert thermique aux parois, l'évolution de la pression dans le canal et sur les fluctuations, en particulier, sur l'évaluation du terme croisé du tenseur de Reynolds. La configuration d'un chauffage asymétrique est étudiée expérimentalement pour la phase de démarrage et le régime stationnaire. Pour la phase de démarrage, la caractérisation des premières heures à partir de la mise en chauffage de la paroi est réalisée en termes de température pariétale, de vitesse et de comportement bi-/tri-dimensionnel de l'écoulement. Un écoulement de retour de grande échelle est mis en évidence. L'impact de la stratification thermique externe du canal est également étudié. Pour le régime stationnaire, les analyses sont réalisées sur des données pour lesquels le régime est considéré établi. Les comportements thermique et dynamique sont étudiés et mettent en évidence deux états distincts. Des écoulements de retour sont également observés. Enfin, les influences du nombre de Prandtl et de l'écartement du canal sont discutées. / Under the current energy context, the development of solar energy goes through its large scale development, especially in urban areas. Active and integrated solutions, such as photovoltaic double-skins, allow both the heat recovery for building needs and the exploitation of building envelope as collecting surface. Furthermore, this configuration limits the efficiency loss and the acceleration of ageing process due to overheating of the solar cells. Indeed, in this configuration, the photovoltaic panels are separated from the building by an air channel and the thermally driven flow that develops in the channel helps to evacuate the heat absorbed by the panels. However, the global behaviour of the photovoltaic double-skin is complex and not yet fully understood. This study is part of a scientific project on multi-scale modelling and experimentation of BIPV components. It focuses on the experimentation of the natural convection phenomenon in double-façades. An experimental apparatus developed during C. Daverat's thesis models the double-façade by a vertical channel with wall heating. The working fluid is water so as to avoid radiative heat transfer between walls. The experimental apparatus consists of a 65 cm high vertical channel, with isoflux heating, immersed in a 1.5 m high water tank. The fluid flow is instrumented with measurements of heat flux, wall temperature and velocity. The velocity measurements are made by Particle Image Velocimetry and Laser Doppler Velocimetry. Two heating configurations are studied: symmetrical (same heat flux is imposed on both walls) and asymmetrical (only one wall is heated, the other one being adiabatic). For the study with symmetrical heating configuration, experimental data from Daverat's thesis are analysed by a zonal approach. The channel is split into several zones and a scaling analysis is conducted in order to explain experimental observations. Thus, the study focuses on heat transfer, pressure evolution in the channel and fluctuations, in particular, the evaluation of the maximum Reynolds stress. The asymmetrical configuration is studied for the transient regime and the steady regime. For the transient regime, early stage (first hours) is characterised in terms of wall temperature, velocity and two- or three-dimensional flow behaviour. A large-scale reversal flow is observed. The impact of external thermal stratification is also studied. For the steady regime, thermal and dynamic behaviours are studied and two different states are distinguished and characterised. Reversal flows are also observed. Finally, the influence of the Prandtl number and the channel width is discussed. Bipv Energie photovoltaïque Energie solaire Energie renouvelable Batiment Chaleur Convection naturelle Ecoulement de chaleur Flux chaleur Chauffage Régime transitoire Température Bipv Photovoltaic Energy Solar Energy Renewable energy Building Heat Natural convection Heat Flow Heat diffusion Heating Transitional alumina Temperature 621.470 72
56	Systém napájení domácnosti z obnovitelných zdrojů energie / Power Supply System for Housis Using Renewable Resources Gálus, Matej January 2011 (has links) The aim of this thesis is to describe the advantages of simultaneous utilization of photovoltaic and wind electricity in an autonomous system, supplying the household with electricity without connection to the electrical grid. The most used methods of connecting photovoltaic modules and wind generators to chemical batteries are discussed. Several maximum power point tracking methods and their properties are described. A block schematic diagram of an autonomous off-grid system utilizing chemical accumulators is proposed. The system also contains an inverter producing standard mains voltage 230 VAC to supply common household appliances. A Quasi-Square Wave converter topology was chosen for all three power converters. An experimental 180 W output power QSW converter with one controllable switch was designed, simulated with Pspice, manufactured and tested to verify the efficiency of the topology. Excellent agreement was found between predicted and measured efficiency at full output power. Efficiency for reliable operation varies between 89% and 92,2% at full power and depends mainly power inductor and MOSFET used. After successful evaluation of QSW topology, the power converters for the main system were designed. Because of higher power, the converters were designed as four-phase, whereas each phase contains two controllable switches to boost efficiency mainly in low-power area. The most critical and difficult part of the project was to design the mixed-signal control sections for the converters to ensure proper switching of two controllable MOSFETs in each phase. For user interactivity, main control board with graphic LC display, Ethernet module and SD memory card slot was also manufactured.
57	Uma proposta de integração da geração distribuída, por meio das usinas virtuais, ao sistema elétrico do Estado de São Paulo / A proposal for the integration of distributed generation, through virtual power plant, to São Paulo State Electrical System. Hernández, Tannia Karina Vindel 26 March 2015 (has links) Esta dissertação apresenta uma contribuição aos estudos de planejamento do sistema elétrico do Estado de São Paulo, ressaltando os benefícios que se obteria, com uma maior integração das fontes renováveis à matriz elétrica desse estado (notadamente as fontes de energia solar fotovoltaica, eólica, aproveitamento dos resíduos sólidos urbano RSU e vinhaça), visando o aumento da segurança e independência energética, redução de perdas, e benefícios ambientais. Para tanto, apresenta-se o conceito das usinas virtuais, cujo propósito é obter um melhor e maior aproveitamento dos recursos energéticos normalmente dispersos espacialmente - incluindo nesse rol a microgeração distribuída, a autoprodução e cogeração, e mesmo as fontes não renováveis que se encontram perto dos centros de consumo - com o objetivo de coordenar o seu funcionamento conjunto para satisfazer os requisitos da demanda de energia, por meio do uso da Tecnologia da Informação e Telecomunicações ou das Redes Inteligentes (Smart Grid), e, além disso, configurando a usina virtual de maneira que ela atue , no que diz respeito ao sistema interconectado de energia elétrica, rede de transmissão ou distribuição, como se fosse uma planta de geração de grande porte. Apresenta-se uma análise e projeções da operação e do suprimento do subsistema Sudeste/Centro Oeste (SE/CO), com foco especial no Sistema Elétrico do Estado de São Paulo, com suas interações com o SIN. / This Thesis presents contributions for the planning of the electrical system of São Paulo State Brazil, emphasizing benefits obtained with a better integration of renewables (mainly solar photovoltaics, wind energy, from municipal solid waste and sugarcane vinasse) aiming energy security and independence, loss reduction and environmental benefits. For this, the concept of VPP Virtual Power Plant is introduced, in which a better and broader use of energetic resources, geographically dispersed, including distributed microgeneration, autoproduction, cogeneration, and even nonrenewable sources, is facilitated. Those disperse energy resources, in general located near the consumer, are grouped and jointly managed, in order of to satisfy the demand requirements, using Smart Grid and Information and Telecommunication Technologies, and making the VPP to act, for the transmission or distribution system point of view, as a conventional large electrical power plant. An analysis and forecasts of the operation of the Brazilian Southeast/Center West (SE/CO) subsystem, with special focus on São Paulo State electrical system, and its interactions with the Brazilian Interconnected Electrical System (SIN), is presented. Distributed Generation Electrical Power Systems Energia Eólica Fontes renováveis de energia Fotovoltaica Geração distribuída Municipal Solid Waste. Photovoltaic energy Planejamento Planning Redes inteligentes Renewable Energy Sources Resíduos sólidos urbanos São Paulo São Paulo Sistemas Elétricos Smart Grid sugarcane vinasse Usinas virtuais Vinhaça Virtual Power Plants Wind Energy
58	Uma proposta de integração da geração distribuída, por meio das usinas virtuais, ao sistema elétrico do Estado de São Paulo / A proposal for the integration of distributed generation, through virtual power plant, to São Paulo State Electrical System. Tannia Karina Vindel Hernández 26 March 2015 (has links) Esta dissertação apresenta uma contribuição aos estudos de planejamento do sistema elétrico do Estado de São Paulo, ressaltando os benefícios que se obteria, com uma maior integração das fontes renováveis à matriz elétrica desse estado (notadamente as fontes de energia solar fotovoltaica, eólica, aproveitamento dos resíduos sólidos urbano RSU e vinhaça), visando o aumento da segurança e independência energética, redução de perdas, e benefícios ambientais. Para tanto, apresenta-se o conceito das usinas virtuais, cujo propósito é obter um melhor e maior aproveitamento dos recursos energéticos normalmente dispersos espacialmente - incluindo nesse rol a microgeração distribuída, a autoprodução e cogeração, e mesmo as fontes não renováveis que se encontram perto dos centros de consumo - com o objetivo de coordenar o seu funcionamento conjunto para satisfazer os requisitos da demanda de energia, por meio do uso da Tecnologia da Informação e Telecomunicações ou das Redes Inteligentes (Smart Grid), e, além disso, configurando a usina virtual de maneira que ela atue , no que diz respeito ao sistema interconectado de energia elétrica, rede de transmissão ou distribuição, como se fosse uma planta de geração de grande porte. Apresenta-se uma análise e projeções da operação e do suprimento do subsistema Sudeste/Centro Oeste (SE/CO), com foco especial no Sistema Elétrico do Estado de São Paulo, com suas interações com o SIN. / This Thesis presents contributions for the planning of the electrical system of São Paulo State Brazil, emphasizing benefits obtained with a better integration of renewables (mainly solar photovoltaics, wind energy, from municipal solid waste and sugarcane vinasse) aiming energy security and independence, loss reduction and environmental benefits. For this, the concept of VPP Virtual Power Plant is introduced, in which a better and broader use of energetic resources, geographically dispersed, including distributed microgeneration, autoproduction, cogeneration, and even nonrenewable sources, is facilitated. Those disperse energy resources, in general located near the consumer, are grouped and jointly managed, in order of to satisfy the demand requirements, using Smart Grid and Information and Telecommunication Technologies, and making the VPP to act, for the transmission or distribution system point of view, as a conventional large electrical power plant. An analysis and forecasts of the operation of the Brazilian Southeast/Center West (SE/CO) subsystem, with special focus on São Paulo State electrical system, and its interactions with the Brazilian Interconnected Electrical System (SIN), is presented. Energia Eólica Fontes renováveis de energia Fotovoltaica Geração distribuída Planejamento Redes inteligentes Resíduos sólidos urbanos São Paulo Sistemas Elétricos Usinas virtuais Vinhaça Distributed Generation Electrical Power Systems Municipal Solid Waste. Photovoltaic energy Planning Renewable Energy Sources São Paulo Smart Grid sugarcane vinasse Virtual Power Plants Wind Energy
59	Modelagem e controle de conversores fonte de tensão utilizados em sistemas de geração fotovoltaicos conectados à rede elétrica de distribuição Almeida, Pedro Machado de 29 April 2011 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-04-20T13:39:03Z No. of bitstreams: 1 pedromachadodealmeida.pdf: 13436160 bytes, checksum: 84c66613dade0766ae9ea2bdc8be9f91 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-04-20T14:45:37Z (GMT) No. of bitstreams: 1 pedromachadodealmeida.pdf: 13436160 bytes, checksum: 84c66613dade0766ae9ea2bdc8be9f91 (MD5) / Made available in DSpace on 2017-04-20T14:45:37Z (GMT). No. of bitstreams: 1 pedromachadodealmeida.pdf: 13436160 bytes, checksum: 84c66613dade0766ae9ea2bdc8be9f91 (MD5) Previous issue date: 2011-04-29 / Esta dissertação apresenta uma estratégia de controle para sistemas de geração fotovoltaicos, de único estágio, trifásicos, conectados à rede elétrica de distribuição. São desenvolvidos modelos matemáticos para representar as características dinâmicas dos painéis fotovoltaicos, do conversor fonte de tensão (VSC -“Voltage Source Converter”) e da rede de distribuição. A modelagem do sistema de geração disperso (SGD) é feita no sistema de coordenadas síncrono (dq), fornecendo um sistema de equações diferenciais que pode ser usado para descrever o comportamento dinâmico do sistema quando as tensões da rede estão equilibradas ou desequilibradas. O conversor é controlado no modo de corrente, através da estratégia de modulação vetorial (Space Vector Modulation - SVM). São projetadas duas malhas de controle em cascata para controlar o conversor estático. A malha interna controla a corrente injetada na rede enquanto que a externa controla a tensão no barramento CC do conversor. O controle da tensão CC permite rastrear o ponto de máxima potência do painel PV além de controlar a quantidade de potência ativa injetada na rede CA. Um método ativo de detecção de ilhamento baseado na injeção de corrente de sequência negativa é incorporado ao sistema de controle. Resultados de simulações digitais obtidos com o programa ATP (Alternative Transient Program ) são utilizados para validar os modelos matemáticos e as estratégias de controle. Finalmente, um protótipo experimental de pequena escala é montado em laboratório. Todo o sistema de controle do protótipo experimental foi implementado no DSP TMS320F28212. Os resultados obtidos demonstram o funcionamento do sistema e podem ser usados para validar a estratégia de controle utilizada. / This dissertation presents a control strategy for a single-stage, three-phase, photovoltaic systems to be connected to a distribution network. Mathematical models are developed to represent the dynamic characteristics of the photovoltaic panels, the voltage-source converter (VSC) and the distribution network. The modeling of the dispersed generation system (DGS) is done in the synchronous reference frame (dq), providing a system of diﬀerential equations that describes the dynamic behavior of the system when the network voltages are balanced or unbalanced. The converter is controlled in current mode through the space vector modulation (SVM) strategy. Two control loops are designed to control the static converter. The inner loop controls the injected current into the network while the external loop controls the converter DC bus voltage. The DC voltage regulator allows to track the PV maximum power point and to control the active power injected into the AC grid. An active islanding detection method based on negative-sequence current injection is incorporated into the control system. Digital simulations results obtained with Alternative Transients Program (ATP) is used to validate the mathematical models and the control strategies. Finally, a small-scale experimental prototype is implemented in the laboratory. The whole control system of the experimental prototype was programmed in DSP TMS320F2812 of Texas Instruments. The results demonstrate that the operation of the system can be used to validate the applied control strategy. CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA Energia solar fotovoltaica Geração dispersa Fontes alternativas de energia Conversor fonte de tensão VSC Transformação de coordenadas Controle no modo de corrente Detecção de ilhamento Controle digital DSP Photovoltaic energy Dispersed generation Alternative energy sources Voltage-source converter VSC Reference frame transformation Current mode control Islanding detection Digital control DSP
60	Parciální řešení hybridního systému s nízkoteplotními palivovými články a obnovitelnými zdroji / Partial Solution of Hybrid System with Low-Temperature Fuel Cells and Renewable Sources Ptáček, Michal January 2014 (has links) The thesis deals with the principle functions of low-temperature fuel cells with proton exchange membrane (PEMFC), photovoltaic sources (PVPP) and wind energy sources (WPP), along with solving their detailed mathematical expressions. In this work, the individual sources and their simulated models are analyzed in depth. The actual simulation is preceded by familiarization with important historical milestones in the development of fuel cells. Furthermore there is a basic classification of fuel cells and the characteristics of the cells used in the energy sectors. The text also provides information on projects that address the implementation of PEMFC as a primary or supplementary source of energy. Along with outlining the options for PEMFC as a perspective hydrogen technologies in the near future, the basic methods of hydrogen production and storage options are presented for the complexity. The work is exclusively focused on improving PEMFC mathematical models that under the hybrid system cooperate with renewable energy sources (RES). Part of the theses contains a short review of run or modeled concepts of hybrid systems in the energy sector. Using these models the main deficiencies of the models or of the whole PEMFC system can be identify. Specifications of the deficiencies lead to the creation of a new advanced dynamic PEMFC model that allows an analysis of the development of electrical and non-electrical quantities using long term tests. Furthermore, the thesis presents results of the experiments of thermal and dynamic behavior PEMFC, which were obtained from the additionally extended model with a reformer and the DC/DC converter. In this text there is a model of a photovoltaic module created, which is based on the nominal values parameterization. The model is subjected to basic experiments in which measured hydrometeorological data are used. If the hybrid system utilizes renewable energy sources, it is good to know the evolution of atmospheric conditions in the installation of these resources. Specifically for PVPP, publicly available databases containing information about solar radiation levels can be used for the selected location. Public databases are often used for initial design and manufacturing options for PVPP. An evaluation of the relevancy of public databases is performed based on a long-term observation of real measured data. Furthermore, these data are used for experiments on the photovoltaic module. Partially the text addresses the issue of the wind energy sources, however, it is simulated only on a simplified model of WPP. Created models of subsystems can be generally implemented as partial inputs hybrid systems in the future work. The thesis was developed at Centre for Research and Utilization of Renewable Energy (CVVOZE) with the financial support of the National Programme for Sustainability and the Ministry of Education, Youth and Sports of the Czech Republic under the project no. LO1210 - Energy for Sustainable Development and the project no. FEKT-S-14-2520 - New Technologies for Sustainable Development of Electrical Power Systems. The thesis was also generated under the project no. TA03020523 - Dynamic model of distribution network with the financial support of Technology Agency of the Czech Republic.

Search results