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171	Design And Control of Power Converters for Renewable Energy Systems Abhijit, K January 2016 (has links) (PDF) Renewable energy sources normally require power converters to convert their energy into standardized regulated ac output. The motivation for this thesis is to design and control power converters for renewable energy systems to ensure very good power quality, efficiency and reliability. The renewable energy sources considered are low voltage dc sources such as photovoltaic (PV) modules. Two transformer-isolated power circuit topologies with input voltage of less than 50V are designed and developed for low and medium power applications. Various design and control issues of these converters are identified and new solutions are proposed. For low power rating of a few hundred watts, a line-frequency transformer interfaced inverter is developed. In the grid connected operation, it is observed that this topology injects considerable lower order odd and even harmonics in the grid current. The reasons for this are identified. A new current control method using adaptive harmonic compensation technique and a proportional-resonant-integral (PRI) controller is proposed. The proposed current controller is designed to ensure that the grid current harmonics are within the limits set by the IEEE 1547-2003 standard. Phase-locked loops (PLLs) are used for grid synchronization of power converters in grid-tied operation and for closed-loop control reference generation. Analysis and design of synchronous reference frame PLL (SRF-PLL) and second-order generalized integrator (SOGI) based PLLs considering unit vector distortion under the possible non-ideal grid conditions of harmonics, unbalance, dc offsets and frequency deviations are proposed and validated. Both SRF-PLL and SOGI-PLL are low-complexity PLLs. The proposed designs achieve fastest settling time for these PLLs for a given worst-case input condition. The harmonic distortion and dc offsets in the resulting unit vectors are limited to be well within the limits set by the IEEE 1547-2003 standard. The proposed designs can be used to achieve very good performance using conventional low-complexity PLLs without the requirement of advanced PLLs which can be computationally intensive. A high-frequency (HF) transformer interfaced ac link inverter with a lossless snubber is developed medium power level in the order of few kilowatts. The HF transformer makes the topology compact and economical compared to an equally rated line frequency transformer. A new synchronized modulation method is proposed to suppress the possible over-voltages due to current commutation in the leakage inductance of the HF transformer. The effect of circuit non-ideality of turn-on delay time is analyzed. The proposed modulation mitigates the problem of spurious turn-on that can occur due to the turn-on delay time. The HF inverter, rectifier and snubber devices have soft switching with this modulation. A new reliable start-up method is proposed for this inverter topology without any additional start- up circuitry. This solves the problems of over-voltages and inrush currents during start-up. The overall research work reported in the thesis shows that it is possible to have compact, reliable and high performance power converters for renewable energy conversion systems. It is also shown that high control performance and power quality can be achieved using the proposed control techniques of low implementation complexity. Power Converters Renewable Energy Sources Photovoltaic Modules Phase-Locked Loops High Frequency Transfomers AC Link Inverters Power Converter Toplogies Inverter Topologies Photovoltaic Systems Electrical Engineering
172	The Future of Energy Storage : Investment Evaluations Regarding Energy Storage Systems Connected to PV Systems / Framtidens Energilagring : Investeringsberäkningar för energilagringssystem anslutna till PV-system Lindberg, Oskar, Högström, Emil, Falkenberg, Oskar January 2017 (has links) An ever-decreasing cost of photovoltaics (PV) combined with generous installation subsidies lead to a growth of PV systems in Sweden. A large-scale penetration of PV power would make Energy Storage Systems (ESS) interesting for providing back-up storage, enabling flexibility and regulating intermittence. ESS represents a vital link between electrical supply and demand, and moreover a critical feature for increasing the use and attractiveness of renewable and intermittent energy sources. The purpose of this study is to do a quantitative analysis examining the most beneficial way to store electricity from PV regarding investment cost, life span, capacity and pay-off time. The study object is Valsätraskolan, a school in Uppsala with an existing PV system. The thesis shows that Lithium-ion batteries are the best prospected battery type but still not an economically profitable investment. With the current grid- and battery prices the most suitable battery solution has a pay-off time of 125 years. If the school would extend their PV system to cover all preferable roof areas, the pay-off time would be 48 years. If ESS are to become attractive from a financial point of view, the grid prices would have to increase and the cost for ESS decrease substantially. ESS PV Energy Storage Systems Photovoltaic systems Pay-off time Investment evaluations Tesla Powerwall Solar Power Li-ion Lithium ion batteries Financial calculations Elektroteknik och elektronik Energy Engineering Energiteknik Economics and Business Ekonomi och näringsliv
173	Inversores Fonte Z monofásicos e conversor de dois estágios para sistemas fotovoltaicos sem Transformador TENÓRIO JÚNIOR, Gilberto Alves 22 March 2016 (has links) Submitted by Fabio Sobreira Campos da Costa (fabio.sobreira@ufpe.br) on 2017-07-11T12:39:13Z No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Dissertação Mestrado M276 - Gilberto.pdf: 3559945 bytes, checksum: e0e92cec09c72c5a7b8b98260c3b9a8e (MD5) / Made available in DSpace on 2017-07-11T12:39:13Z (GMT). No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Dissertação Mestrado M276 - Gilberto.pdf: 3559945 bytes, checksum: e0e92cec09c72c5a7b8b98260c3b9a8e (MD5) Previous issue date: 2016-03-22 / Este trabalho apresenta um estudo comparativo de conversores monofásicos aplicados a sistemas fotovoltaicos sem transformador. Topologias de inversores sem transformador têm menores custos, tamanho e peso. Contudo, a não utilização do transformador pode ser responsável por consideráveis valores de correntes de fuga. A associação em série de vários módulos fotovoltaicos se faz necessária para alcançar o nível de tensão desejado no barramento c.c.. Com o intuito de reduzir o número de módulos fotovoltaicos em série, topologias com característica de elevação de tensão (boost) podem ser utilizadas. Portanto, topologias que possuem estas características e que possam apresentar baixos valores de correntes de fuga devem ser escolhidas para o estudo. As topologias presentes neste trabalho são: o conversor de dois estágios, o inversor fonte Z monofásico com diodo adicional, e o inversor fonte Z de três estados. / This work presents a comparative study of single-phase converters applied to transformerless photovoltaic systems. Topologies of transformerless inverters have lower costs, size and weight. However, not using it may cause considerable amounts of leakage currents. The association in series of several PV modules is needed to achieve the voltage level desired in d.c. bus. In order to reduce the number of photovoltaic modules in series, topologies with voltage boost characteristic can be used. Therefore, topologies that have voltage boost characteristic and can have low leakage current values are chosen for the study. Topologies present in this work are: the two stages single-phase converter, the single-phase Z-source inverter with additional diode, and the single-phase three switch three state Z-source inverter. Inversor Fonte Z Monofásico Conversão CC/CA Conversores de Potência Modulados por Largurade Pulso Sistemas foto voltaicos Energias renováveis Z Source TSTS Inverters Single Phase Z Source dc/ac Power Conversion Pulse Width Modulated Power Converters Photovoltaic Systems Renewable energy
174	Bestimmung der maximal zulässigen Netzanschlussleistung photovoltaischer Energiewandlungsanlagen in Wohnsiedlungsgebieten Scheffler, Jörg Uwe 01 November 2002 (has links) The future operation of public low voltage networks has to consider increased decentralised generation using photovoltaic systems for residential application. For utilities it is necessary to determine the maximum permissible installed power of residential photovoltaic systems in sections of the low-voltage network. For this purpose a method based on modelling low-voltage network structures, occurring loads and insolation situations is presented and demonstrated. The maximum permissible installed power of residential photovoltaic systems is fundamentally determined by the structure of the settlement of the affected low-voltage network section. By modifying the generator model the method can be applied too for other types of decentralized generators in the low-voltage network such as fuel cell systems. / Für den Betrieb des öffentlichen Niederspannungsnetzes in Wohnsiedlungsgebieten ist zukünftig mit einem verstärkten Einsatz dezentraler photovoltaischer Energiewandlungsanlagen zu rechnen. Für Netzbetreiber ist es erforderlich, die maximal zulässige Netzanschlussleistung derartiger Anlagen für Niederspannungs-Netzbezirke zu bestimmen. Dazu wird ein Verfahren auf der Grundlage der Modellierung der Struktur von Netzbezirken, der dort auftretenden Belastungen und Einstrahlungssituationen vorgestellt und demonstriert. Die maximal zulässige Netzanschlussleistung dezentraler photovoltaischer Energiewandlungsanlagen wird wesentlich durch die Siedlungsstruktur des betreffenden Niederspannungs-Netzbezirkes bestimmt. Durch Modifikation des Erzeugermodelles kann das Verfahren auch für andere dezentrale Kleinerzeuger im Niederspannungsnetz angewandt werden. info:eu-repo/classification/ddc/620 ddc:620 Siedlungsstruktur Netzbetrieb Verteilungsnetz Niederspannungsnetz Low-Voltage Network Secondary Distribution System Decentralized Generation Distribution Network Operation Domestic Load Photovoltaic Systems Settlement Structure Annual Energy Consumption Dezentrale Energieerzeugung Haushaltlast Photovoltaikanlage Jahresenergieverbrauch
175	Performance Evaluation of Modular Multilevel Converters for Photovoltaic Systems Balachandran, Arvind January 2019 (has links) Modular Multilevel Converters (MMCs), over recent years, have gained popularity in high-voltage(HV) and medium-voltage (MV) applications due to their high reliability. Also, with the rapid growth of solar photovoltaics (PV) and energy storage systems, there is a high demand for efficient and reliable power converter solutions. Therefore, due to the seen merits behind MMCs, this thesis assesses their performance for low-voltage (LV) applications. This is accomplished by comparing basic MMC solutions with an equivalent flying capacitors based solution. Such comparison is based on the evaluation of the passive elements requirements, semi-conductor losses, area, voltage, and current stresses, and common-mode voltage. It is worth mentioning that the evaluation is based on utilizing LV MOSFETs. Furthermore, the thesis introduces a modulation scheme for the full-bridge submodule MMC, thus further exploring the different operating regions of the full-bridge based MMC. Modular Multilevel Converters Converters Power Converters Photovoltaics Photovoltaic systems Half-bridge MMC MMC Full bridge MMC Full bridge modulation Annan elektroteknik och elektronik
176	Rooftop PV Impacts on Fossil Fuel Electricity Generation and CO2 Emissions in the Pacific Northwest Weiland, Daniel Albert 27 August 2013 (has links) This thesis estimates the impacts of rooftop photovoltaic (PV) capacity on electricity generation and CO2 emissions in America's Pacific Northwest. The region's demand for electricity is increasing at the same time that it is attempting to reduce its greenhouse gas emissions. The electricity generated by rooftop PV capacity is expected to displace electricity from fossil fueled electricity generators and reduce CO2 emissions, but when and how much? And how can this region maximize and focus the impacts of additional rooftop PV capacity on CO2 emissions? To answer these questions, an hourly urban rooftop PV generation profile for 2009 was created from estimates of regional rooftop PV capacity and solar resource data. That profile was compared with the region's hourly fossil fuel generation profile for 2009 to determine how much urban rooftop PV generation reduced annual fossil fuel electricity generation and CO2 emissions. Those reductions were then projected for a range of additional multiples of rooftop PV capacity. The conclusions indicate that additional rooftop PV capacity in the region primarily displaces electricity from natural gas generators, and shows that the timing of rooftop PV generation corresponds with the use of fossil fuel generators. Each additional Wp/ capita of rooftop PV capacity reduces CO2 emissions by 9,600 to 7,300 tons/ year. The final discussion proposes some methods to maximize and focus rooftop PV impacts on CO2 emissions, and also suggests some questions for further research. Environmental Engineering Power and Energy
177	Techno-Economic Analysis of Solar and Battery Systems : A Comprehensive Analysis of Key Parameters Lundholm, Sofia January 2023 (has links) Sweden has experienced a significant increase in installed solar power capacity between 2010 and 2020, driven by decreasing installation costs, government subsidies and widespread public interest. However, Sweden's geographical distribution of electricity generation and consumption presents challenges for the national grid. Recent instability in the electricity supply due to the war in Ukraine has prompted increased interest in residential battery energy storage systems (BESS) as a means to enhance energy resilience and reduce electricity bills. The rapid growth of the European residential BESS market is expected to continue, driven by the need for flexibility and energy-shifting services in response to increasing renewable energy production. BESS can provide economic benefits to households with installed PV systems through peak shaving, allowing them to store excess electricity during periods of high production and use it during peak demand. This thesis investigates photovoltaic (PV) and BESS performance and profitability for Swedish households under various conditions. The study considers parameters such as system costs, energy prices, grid tariffs and dynamic battery management strategies to investigate the profitability of the systems. The research aims to provide guidelines for households to maximize the benefits of their PV and BESS installations and minimize their dependence on the grid. The effectiveness and practicality of the developed method are demonstrated through verification in two real-world installations. The study’s findings demonstrate that electricity prices, household consumption and roof orientation highly influence the profitability of PV systems. If future electricity prices align with present forecasts, installations on north-facing roofs will not be profitable under any circumstances investigated in this study. A distinct correlation is also discernible between larger loads and improved economic viability for PV and BESS installations, while a smaller battery capacity results in higher economic viability. This reveals that BESS profitability currently is limited due to high installation costs. However, the potential for future BESS profitability is shown if battery costs are reduced and more advanced battery dispatch strategies are developed. / Sverige har upplevt en betydande ökning av installerad solkraftskapacitet mellan åren 2010 och 2020, drivet av faktorer som minskande installationskostnader, statliga bidrag och ett brett folkligt intresse. Geografiska skillnader mellan elproduktion och konsumtion i Sverige innebär utmaningar för elnätet. Instabilitet i elförsörjningen till följd av kriget i Ukraina har ökat intresset för batterilagringssystem i bostäder som ett medel för hushåll att öka deras energiresiliens och minska elkostnaderna. Den snabba tillväxten på den europeiska marknaden för batterilagringssystem förväntas fortsätta, drivet av behovet av flexibilitet i elnätet och energiomställningstjänster till följd av ökad produktion av förnybar energi. Batterilagringssystem kan ge ekonomiska fördelar för hushåll med installerade PV-system genom utjämning av effekttoppar, vilket gör att överskottsenergi kan lagras under perioder av hög produktion och användas under toppbelastning. Denna rapport undersöker prestanda och lönsamhet för solcells- och batterisystem för svenska hushåll under olika förhållanden. Studien utforskar betydande parametrar såsom systemkostnader, energipriser, nättariffer och dynamiska batterihanteringsstrategier för att undersöka lönsamheten för systemen. Detta ämnar till att ge riktlinjer för hushåll att maximera fördelarna med solcells- och batteri-installationer och minimera dess beroende av elnätet. Effektiviteten och praktikaliteten av den utvecklade metoden demonstreras genom verifiering i två verkliga installationer. Resultaten visar atta elpriser, hushållsförbrukning och takorientering i hög grad påverkar lönsamheten hos solcellsanläggningar. Om framtida elpriser stämmer överens med nuvarande prognoser kommer installationer på tak mot norr inte att vara lönsamma under några omständigheter som undersökts i denna studie. En tydlig korrelation kan också urskiljas mellan större elkonsumtion och förbättrad ekonomisk lönsamhet för PV och batteri-installationer, medan en mindre batterikapacitet resulterar i högre ekonomisk lönsamhet. Detta visar att batteriers lönsamhet för närvarande är begränsad på grund av höga installationskostnader. Potentialen för framtida lönsamhet för batterier visas dock om batterikostnaderna sänks och mer avancerade batterihanteringsstrategier utvecklas. Photovoltaic systems battery energy storage systems techno-economic analysis dispatch strategies electrical pricing areas energy management grid independence. Solcellssystem energilagringssystem tekno-ekonomisk analys elprisområdet energihushållning självständighet från elnätet Engineering and Technology Teknik och teknologier
178	Fuktproblem i tak till följd av solceller : Risker med skuggning av takkonstruktioner / Moisture related damages caused by Photovoltaic modules : Risks with shading of roof structures Flygring, Pontus, Eliasson, Anton January 2023 (has links) Energiomställning och globala mål ställer allt högre krav på länder, organisationer och olikabranscher, inte minst byggbranschen. En metod för att minska belastningen på det nationellaelnätet och göra fastigheter mindre beroende av de stora fluktuationerna i energipriserna ärsolcellsanläggningar. Privatpersoner och företag har sedan några år tillbaka satsat på att nyttjasolenergi som en kompletterande energikälla (Energimyndigheten 2019).En pressad marknad och snabba beslut leder till en stor ökning av solcellsanläggningar sommonteras på olika hustak. Vad blir följderna för husen som är försedda med heltäckandetakinstallationer, exempelvis solceller? Vilka potentiella konsekvenser kan dessa installationermedföra på lång sikt? (Svensksolenergi, 2023).Syftet med examensarbetet är att öka medvetenheten kring de risker som kan uppstå urfuktteknisk synvinkel vid installation av heltäckande takinstallationer som solceller. Alla hus ärunika och det finns flertalet typer av takkonstruktioner som alla har olika förutsättningar. Någraav de förutsättningar som ligger till grund för ett friskt hus är ventilation, tryckförhållanden,mängd samt omfattning av köldbryggor, klimat samt geografisk position och de förutsättningarsom finns på platsen. För att ett byggnadsmaterial inte ska överskrida gränserna för kritisktfukttillstånd efter installation av solceller bör konstruktionen kontrolleras innan montering viaen fuktteknisk utredning och/eller genom långa cykliska simuleringar med takets nyaförutsättningar. Det kan även behövas kontinuerliga mätningar efter installation för attsäkerställa en fukttekniskt säker konstruktion. Klimatet har en betydande inverkan påkonstruktionen och kan genomgå kraftiga variationer under ett år. I examensarbetet undersöksden inverkan som solceller har på uttorknings- och uppfuktningsprocesser i takkonstruktioner.I examensarbetet används det dynamiska fukt- och värmeberäkningsprogrammet WUFI Pro 6.7för att genomföra simuleringar av ett par konstruktioner med målet att undersöka hur ensolcellsanläggning påverkar fuktförhållandet i konstruktionen och om det kan uppstå risker medinstallationen.De simuleringar som genomförts visar att varma tak löper risk att utveckla fuktrelateradeproblem som mikrobiell tillväxt. Resultaten visade att parallelltak, som har goda fukttekniskaförutsättningar, är mer lämpade för solceller. En fuktteknisk bedömning bör utföras för varjeindividuellt fall för att säkerställa att konstruktionen klarar av skuggningen som solcellermedför. / Energy transition and global goals impose higher demands on countries, organizations, andvarious industries, including the construction industry. One of the now widely recognizedmethods to reduce the strain on the national power grid and decrease the dependency of theenergy price fluctuations is the installation of solar power systems. In recent years there hasbeen significant investment by private consumers and businesses in the adoption of solar energyas a supplementary power source (Energimyndigheten, 2019).A competitive market and rapid decision-making processes have resulted in a significantincrease in the installation of solar power systems on various rooftops. However, what happensto the houses covered with these types of full-coverage roof installations? And what are thepotential risks? (Svensksolenergi, 2023).The purpose of the degree project is to increase awareness of the moisture-related risks that canarise when installing full coverage roof installations such as PV-modules (Photovoltaicmodules). All houses are unique and there are several types of roof structures that all havedifferent properties. Some of the factors that form the basis of a healthy house are ventilation,pressure conditions, the number and extent of thermal bridges, climate, geographical positionand site-specific conditions. In order for a building material not to exceed the limits for criticalmoisture condition after installation of solar cells, the construction should be checked beforeinstallation via a moisture technical investigation and/or through long cyclic simulations withthe new conditions of the roof. There may also be a need for continuous measurements afterinstallation to ensure a moisture-safe structure. The climate has a significant impact on thestructure and can undergo strong variations during a year. The thesis examines the impact thatsolar cells have on dehydration and humidification processes in roof structures.In the thesis, the dynamic moisture and heat calculation program WUFI Pro 6.7 is used to carryout simulations of a couple of structures with the aim of investigating how a solar cellinstallation affects the moisture conditions in the structure and whether there may be risks withthe installation.The simulations conducted show that warm roofs are at risk of developing moisture-relatedproblems such as microbial growth. The results showed that parallel roofs, which has goodprerequisites for handling moisture, are more suitable for solar cells. A moisture assessmentshould be carried out for each individual case to ensure that the structure can cope with theshading caused by solar cells. solar cells solar panels photovoltaic systems shading roof moisture safety roof installation temperature reduction desorption absorption moisture problem. solceller solcellsanläggningar skuggning fuktsäkerhet tak kallvind takinstallation temperatursänkning uttorkning uppfuktning fuktproblem. Engineering and Technology Teknik och teknologier
179	Experimental Assessment of Photovoltaic Irrigation System Raza, Khalil 15 December 2014 (has links) No description available. Energy Alternative Energy Engineering Mechanical Engineering solar irrigation photovoltaic irrigation photovoltaic systems photovoltaics PV systems PV irrigation solar PV applications in agriculture solar energy MPPT-charge controller data acquisition system LabVIEW Khalil Raza solar tracker Dayton, OH
180	Sistemas fotovoltaicos integrados ao perfil de uso da edificação / Integrated photovoltaic systems to use the building profile Márcia Rose Alves de Macedo Azzolino Ricetta 08 December 2010 (has links) Nos últimos anos, o consumo de energia vem crescendo mundialmente nos grandes centros urbanos, e esforços na área de eficiência energética estão sendo implantados, a fim de reduzir o consumo no horário da ponta e interrupções da rede. O aproveitamento das fontes renováveis, como o fotovoltaico em uma edificação se torna um atrativo a mais para a matriz energética num momento em que o país prima pela universalização dos serviços de energia e a classificação de edifícios comerciais, de serviço e públicos, além dos residenciais quanto à eficiência energética através do Procel Edifica (RTQ-C e RTQ-R). Os sistemas fotovoltaicos podem configurar perfis de uso nas edificações de modo a gerar energia para consumo próprio ou ligado à rede e ainda ter influência na arquitetura do prédio com revestimento: os perfis podem está em telhados, fachadas ou janelas, amenizando em alguns casos a carga térmica no prédio com sombreamento arquitetônico. Hoje, com o avanço da tecnologia no setor de armazenagem é possível, o atendimento com segurança e eficiência a uma edificação ou direcionar esta armazenagem a uma demanda específica como o atendimento à demanda de ciclo profundo, tais como, iluminação externa e recarga de veículos elétricos. Partindo da premissa de sistemas interruptos de energia, UPS, uso de fonte secundária como FV, baterias e Flywheel é apresentado uma forma de melhor gerenciar a energia armazenada, podendo estender a vida útil da bateria e conseqüentemente de todo o sistema fotovoltaico na edificação. Esta forma de armazenar energia proporciona um serviço de uso contínuo sem percepção das interrupções da rede com garantia de 20 anos, tal qual o módulo fotovoltaico, com esta proposta as perdas de energia elétrica na edificação serão atenuadas, pois a eletricidade será utilizada de forma eficiente e inteligente. O ponto de partida do estudo de caso no prédio do IBAM são os sistemas fotovoltaicos com geração distribuída (mini-redes) conectados à rede que são instalados para fornecer energia ao consumidor, complementando a quantidade de energia demandada, caso haja algum aumento do consumo de energia na edificação, ou ainda utilizar o sistema fotovoltaico na hora da ponta e interrupções do sistema da rede no período fora da ponta. A estocagem inercial por meio do Flywheel tem um papel fundamental nesta mini-rede (Flywheel, bateria VRLA, UPS, inversor e STS), pois a sua utilização pode ser apontada como uma inovação tecnológica quanto à regulação de tensão no sistema de energia elétrica, além de preparar a edificação para o smart-grid. Esta configuração de acumulação de energia permitiu a analise do deslocamento desta energia armazenada para o consumo no horário de ponta, mudando o conceito de sistemas fotovoltaicos autônomos no meio urbano e rural no país. Este conceito de armazenagem se confirma então como um aporte na eficiência de energia na edificação, podendo carrear economia de energia substancial, além de proporcionar uma confiabilidade no serviço de energia, com um baixo retorno do investimento e com uma garantia de funcionamento com pequena ou nenhuma manutenção durante o período de vida de 20 anos. / In recent years, energy consumption is globally growing in urban centers, and efforts in the area of energy efficiency are being implemented to reduce consumption of this at the time of the tip and grid outages. The use of renewable sources such as photovoltaic in a building becomes a more attractive energy matrix for a moment in which Brazil press for universal energy service and labeling of commercial buildings, service and public and residential on the efficiency energy through Procel Build (RTQ RTQ-C and-R). Photovoltaic systems can be used as coatings on buildings to generate energy for its own or connected to the mini-grid and still have influence on the architecture of the building: the coatings can is in roofs, facades or windows, softening in some cases the thermal load on building with architectural shading. Putting photovoltaic panels on the facades of the building allows us to serve the demand of the load with deep cycle, such as exterior lighting and possibly charging for electric vehicles. Today, with advancing technology in the storage industry is possible to service safely and efficiently in a storage building or direct this to a specific demand. Assuming uninterrupted power systems, UPS, use of secondary sources like PV, batteries and Flywheel is presented a way to better manage the stored energy and can extend battery life and consequently the entire PV system in the building. This way of storing energy provides a service perception of continuous use without interruption of the network with 20-year warranty, like the PV module, with this proposed loss of electricity in the building will be softened because the electricity will be used efficiently and intelligently. The starting point of the case study conducted in a commercial building in Rio de Janeiro is the photovoltaic systems with distributed generation (mini-grids) that are connected to the grid installed to provide power close to consumers, enhancing the amount of energy ofered if there is some increase in energy consumption in the building, or to use the PV system at the time of the tip and the grid system outages during off-peak. The storage through the inertial flywheel has a key role in this mini-grid (Flywheel, VRLA battery, UPS, inverter and STS), because their use can be considered a technological innovation for the voltage regulation in electric power system, and to prepare the building for the smart-grid. The accumulation of power by batteries and Flywheel UPS allowed the analysis of displacement of energy stored for consumption at peak hours, the same being managed by mini-grids, changing the concept of photovoltaic systems in urban and rural areas in Brazil . This form of storage is then confirmed as an intake of energy efficiency in building, as well as for the Brazilian energy matrix. Thus may carry substantial energy savings, and provide a service reliability of power, with a low return on investment and a guarantee of operation with little or no maintenance during the life of 20 years. Fontes renováveis de energia Armazenagem de energia elétrica Geração descentralizada (Mini-Rede) Sistemas fotovoltaicos na edificação Geração fotovoltaica isolada Decentralized generation (Mini-Grid) Photovoltaic generation isolated Photovoltaic systems in buildings ENGENHARIA MECANICA

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