975 resultados para medium voltage network
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Tässä diplomityössä tutkittiin sähkön laatua Suur-Savon Sähkön verkossa. Samalla perehdyttiin sähkönjakeluverkkojen aiheuttamiin ympäristövaikutuksiin ja näiden vähentämiseen. Työn aihealue on aika laaja kokonaisuus, eikä mihinkään perehdytä kovin yksityiskohtaisella tasolla, vaan käsitellään asiaa mahdollisimman laajasti monelta eri näkökantilta käytännönläheisesti. Mietittäessä keinoja parantaa sähkönlaatua alettiin yhtiössä pohtimaan keinoja vähentää 20 kV avojohtoverkon määrääja osana tätä keskustelua kehitettiin 1000 voltin jakelu-järjestelmä, jonka ensimmäiset koekohteet otettiin käyttöön vuonna 2001. Järjestelmä on osoittautunut käyttökelpoiseksi ja toimivaksi varsinkin vapaa-ajan asuntojen sähköistämisessä. Osana tulevaisuuden verkostostrategiaa joudutaan Suur-Savon Sähkössäkin pohtimaan maasulkuvirtojen kompensointia ja myös tätä aihealuetta onkäsitelty työn yhteydessä. Sähkön laatu on erittäin riippuvainen luonnon aiheuttamista vioista ja näiltä suojautuminen vaatii nykyisen avojohtoverkon korvaamista jollain muulla johtoratkaisulla, joka nostaa maasulkuvirran arvoa ja johtaa jossain vaiheessa kompensoinnin käyttöön.
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Tämän diplomityön tarkoitus on selvittää pienjakelujännitteen nostosta aiheutuvia vaikutuksia sellutehtaan varavoimaverkossa. Työn alussa esitellään varavoimaverkkoon kuuluvia osia, selvitetään erilaisten kuormien vaikutusta varavoimaverkon sähkön laatuun sekä kuormien jakoa varmennettuihin verkkoihin. Seuraavaksi suunnitellaan kaksi keskitettyä varavoimaverkkomallia eri pienjakelujännitteillä. Mallien nimellisjännitteet ovat 400 V ja 690 V. Varavoimaverkkomallien kuormat ja osastojen väliset etäisyydet on otettu valmiista sellutehtaista. Tässä diplomityössä painotutaan erityisesti varavoimaverkkomallien mitoitukseen ja jakelujännitteen nostosta aiheutuvien vaikutusten teknistaloudelliseen vertailuun. Vertailu tehdään keskijännitekojeiston ja varavoimakeskusten välisellä alueella, johon kuu-luvat jakelumuuntaja, varavoimakone, varavoimapääkeskus, kiskosillat, jakelukaapelit, kytkinvaroke- ja katkaisijalähdöt sekä mahdolliset välimuuntajat. Varavoimaverkkojen välisessä kustannusvertailussa käytetään nykyarvomenetelmää.
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Tämä työ on tehty Lappeenrannan teknillisessä yliopistossa, meneillään olevan tuulivoimalasimulaattorin kehitystyön yhteydessä. Työssä käydään läpi simulaattorissa käytettyjen generaattorisillan ja verkkosillan säätöperiaatteita, tehdään katsaus siirtoverkon jännitevikoihin sekä tuulivoimalan toimintaan näissä vikatilanteissa. Työn varsinainen tutkimuskohde on verkkosillan säädön toiminnan simuloiminen siirtoverkon jännitevioissa ja säädön parannusehdotukset.
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Tämän diplomityön tavoitteena oli luoda suuren teollisuuslaitoksen suur- ja keskijännitesähkönjakelujärjestelmälle ennakkohuoltosuunnitelmaesitys, joka selkeyttää järjestelmän ennakkohuoltotoimintaa. Ennakkohuoltosuunnitelmaesityksen perusteella voidaan tulevaisuudessa luoda ennakkohuolto-ohjelma kunnossapitojärjestelmään. Ennakkohuoltosuunnitelmaesityksen kehittäminen aloitettiin selvittämällä suur- ja keskijännitesähkönjakelujärjestelmien ennakkohuoltotoimintaan vaikuttavaa lainsäädäntöä, määräyksiä, ohjeita sekä standardeja. Myös sähkönjakelujärjestelmän komponenttien luotettavuudesta ja pitoajasta saatavilla olevaa informaatiota etsittiin eri lähteistä. Tutkittavana olevaan suur- ja keskijännitesähkönjakelujärjestelmään perehtymisen yhteydessä selvitettiin myös järjestelmän komponenttien varaosatilanne, sekä järjestelmässä käytettävissä olevat varayhteydet. Tutkittavalle suur- ja keskijännitesähkönjakelujärjestelmälle suoritettiin kriittisyysluokittelu, sekä selvitettiin järjestelmän ennakkohuoltotoiminnan nykytilanne. Lisäksi tutkittiin järjestelmän vikahistoriakirjauksia kymmenen vuoden ajalta. Työn viimeisessä osassa laadittiin ennakkohuoltosuunnitelmaesitys tutkittavalle suur- ja keskijännitesähkönjakelujärjestelmälle. Ennakkohuoltosuunnitelmaesitykseen ovat osaltaan vaikuttaneet suoritettu kriittisyysluokittelu sekä vikahistoriasta selvinneet asiat. Lisäksi työssä tutustuttiin sähkönjakelun ennakkohuoltotöiden optimointiin. Työssä esiteltiin optimointilaskennan laskentayhtälöt, sekä suoritettiin esimerkkioptimointilaskenta kuvitteellisen sähkönjakelujärjestelmän muuntajien ennakkohuollolle.
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Älykkäiden sähköverkkojen (Smart Grid) avulla pyritään vastaamaan sähkönkäytön tehostamisvaatimuksiin. Pientuotanto on yksi tärkeimmistä älykkäiden sähköverkkojen osatekijöistä. Suomessa yksityishenkilöiden innostus omaan sähköntuotantoon ei ole vielä virinnyt, monista eri tekijöistä johtuen. Tulevaisuuden sähköverkoissa pientuotannon rooli on kuitenkin merkittävä. Diplomityössä tarkastellaan pientuotannon yleistymisen edellytyksiä ja tuotannon pienjänniteverkkoon liittämistä. Pientuotannon potentiaalia tarkastellaan eri tuotantomuotojen ja niiden kannattavuuden näkökulmasta. Työn tärkein osuus keskittyy verkkoonliittämismääräyksiin ja sähköturvallisuuteen. Pienjänniteverkkoon liitetty tuotantolaitos on uusi syöttöpiste verkossa ja aiheuttaa esimerkiksi suojaushaasteita. Lisäksi aihepiiri on vielä uusi ja toimintamenetelmät ovat osin vaillinaisia. Työssä esitetään tärkeimmät haasteet, pohditaan niiden merkittävyyttä ja käydään läpi ratkaisuvaihtoehtoja. Selviä teknisiä esteitä pientuotannon yleistymiselle ei Suomessa ole.
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Medium-voltage motor drives extend the power rating of AC motor drives in industrial applications. Multilevel converters are gaining an ever-stronger foothold in this field. This doctoral dissertation introduces a new topology to the family of modular multilevel converters: the modular double-cascade converter. The modularity of the converter is enabled by the application of multiwinding mediumfrequency isolation transformers. Owing to the innovative transformer link, the converter presents many advantageous properties at a concept level: modularity, high input and output power quality, small footprint, and wide variety of applications, among others. Further, the research demonstrates that the transformer link also plays a key role in the disadvantages of the topology. An extensive simulation study on the new converter is performed. The focus of the simulation study is on the development of control algorithms and the feasibility of the topology. In particular, the circuit and control concepts used in the grid interface, the coupling configurations of the load inverter, and the transformer link operation are thoroughly investigated. Experimental results provide proof-of-concept results on the operation principle of the converter. This work concludes a research collaboration project on multilevel converters between LUT and Vacon Plc. The project was active from 2009 until 2014.
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This master’s thesis studies the case company’s current purchase invoice process and the challenges that are related to it. Like most of other master’s thesis this study consists of both theoretical- and empirical parts. The purpose of this work is to combine theoretical and empirical parts together so that the theoretical part brings value to the empirical case study. The case company’s main business is frequency converters for both low voltage AC & DC drives and medium voltage AC Drives which are used across all industries and applications. The main focus of this study is on the current invoice process modelling. When modelling the existing process with discipline and care, current challenges can be understood better. Empirical study relays heavily on interviews and existing, yet fragmented, data. This, along with own calculations and analysis, creates the foundation for the empirical part of this master’s thesis.
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The research towards efficient, reliable and environmental-friendly power supply solutions is producing growing interest to the “Smart Grid” approach for the development of the electricity networks and managing the increasing energy consumption. One of the novel approaches is an LVDC microgrid. The purpose of the research is to analyze the possibilities for the implementation of LVDC microgrids in public distribution networks in Russia. The research contains the analysis of the modern Russian electric power industry, electricity market, electricity distribution business, regulatory framework and standardization, related to the implementation of LVDC microgrid concept. For the purpose of the economic feasibility estimation, a theoretical case study for comparing low voltage AC and medium voltage AC with LVDC microgrid solutions for a small settlement in Russia is presented. The results of the market and regulatory framework analysis along with the economic comparison of AC and DC solutions show that implementation of the LVDC microgrid concept in Russia is possible and can be economically feasible. From the electric power industry and regulatory framework point of view, there are no serious obstacles for the LVDC microgrids in Russian distribution networks. However, the most suitable use cases at the moment are expected to be found in the electrification of remote settlements, which are isolated from the Unified Energy System of Russia.
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The usual programs for load flow calculation were in general developped aiming the simulation of electric energy transmission, subtransmission and distribution systems. However, the mathematical methods and algorithms used by the formulations were based, in majority, just on the characteristics of the transmittion systems, which were the main concern focus of engineers and researchers. Though, the physical characteristics of these systems are quite different from the distribution ones. In the transmission systems, the voltage levels are high and the lines are generally very long. These aspects contribute the capacitive and inductive effects that appear in the system to have a considerable influence in the values of the interest quantities, reason why they should be taken into consideration. Still in the transmission systems, the loads have a macro nature, as for example, cities, neiborhoods, or big industries. These loads are, generally, practically balanced, what reduces the necessity of utilization of three-phase methodology for the load flow calculation. Distribution systems, on the other hand, present different characteristics: the voltage levels are small in comparison to the transmission ones. This almost annul the capacitive effects of the lines. The loads are, in this case, transformers, in whose secondaries are connected small consumers, in a sort of times, mono-phase ones, so that the probability of finding an unbalanced circuit is high. This way, the utilization of three-phase methodologies assumes an important dimension. Besides, equipments like voltage regulators, that use simultaneously the concepts of phase and line voltage in their functioning, need a three-phase methodology, in order to allow the simulation of their real behavior. For the exposed reasons, initially was developped, in the scope of this work, a method for three-phase load flow calculation in order to simulate the steady-state behaviour of distribution systems. Aiming to achieve this goal, the Power Summation Algorithm was used, as a base for developing the three phase method. This algorithm was already widely tested and approved by researchers and engineers in the simulation of radial electric energy distribution systems, mainly for single-phase representation. By our formulation, lines are modeled in three-phase circuits, considering the magnetic coupling between the phases; but the earth effect is considered through the Carson reduction. It s important to point out that, in spite of the loads being normally connected to the transformer s secondaries, was considered the hypothesis of existence of star or delta loads connected to the primary circuit. To perform the simulation of voltage regulators, a new model was utilized, allowing the simulation of various types of configurations, according to their real functioning. Finally, was considered the possibility of representation of switches with current measuring in various points of the feeder. The loads are adjusted during the iteractive process, in order to match the current in each switch, converging to the measured value specified by the input data. In a second stage of the work, sensibility parameters were derived taking as base the described load flow, with the objective of suporting further optimization processes. This parameters are found by calculating of the partial derivatives of a variable in respect to another, in general, voltages, losses and reactive powers. After describing the calculation of the sensibility parameters, the Gradient Method was presented, using these parameters to optimize an objective function, that will be defined for each type of study. The first one refers to the reduction of technical losses in a medium voltage feeder, through the installation of capacitor banks; the second one refers to the problem of correction of voltage profile, through the instalation of capacitor banks or voltage regulators. In case of the losses reduction will be considered, as objective function, the sum of the losses in all the parts of the system. To the correction of the voltage profile, the objective function will be the sum of the square voltage deviations in each node, in respect to the rated voltage. In the end of the work, results of application of the described methods in some feeders are presented, aiming to give insight about their performance and acuity
Resumo:
The usual programs for load flow calculation were in general developped aiming the simulation of electric energy transmission, subtransmission and distribution systems. However, the mathematical methods and algorithms used by the formulations were based, in majority, just on the characteristics of the transmittion systems, which were the main concern focus of engineers and researchers. Though, the physical characteristics of these systems are quite different from the distribution ones. In the transmission systems, the voltage levels are high and the lines are generally very long. These aspects contribute the capacitive and inductive effects that appear in the system to have a considerable influence in the values of the interest quantities, reason why they should be taken into consideration. Still in the transmission systems, the loads have a macro nature, as for example, cities, neiborhoods, or big industries. These loads are, generally, practically balanced, what reduces the necessity of utilization of three-phase methodology for the load flow calculation. Distribution systems, on the other hand, present different characteristics: the voltage levels are small in comparison to the transmission ones. This almost annul the capacitive effects of the lines. The loads are, in this case, transformers, in whose secondaries are connected small consumers, in a sort of times, mono-phase ones, so that the probability of finding an unbalanced circuit is high. This way, the utilization of three-phase methodologies assumes an important dimension. Besides, equipments like voltage regulators, that use simultaneously the concepts of phase and line voltage in their functioning, need a three-phase methodology, in order to allow the simulation of their real behavior. For the exposed reasons, initially was developped, in the scope of this work, a method for three-phase load flow calculation in order to simulate the steady-state behaviour of distribution systems. Aiming to achieve this goal, the Power Summation Algorithm was used, as a base for developping the three phase method. This algorithm was already widely tested and approved by researchers and engineers in the simulation of radial electric energy distribution systems, mainly for single-phase representation. By our formulation, lines are modeled in three-phase circuits, considering the magnetic coupling between the phases; but the earth effect is considered through the Carson reduction. Its important to point out that, in spite of the loads being normally connected to the transformers secondaries, was considered the hypothesis of existence of star or delta loads connected to the primary circuit. To perform the simulation of voltage regulators, a new model was utilized, allowing the simulation of various types of configurations, according to their real functioning. Finally, was considered the possibility of representation of switches with current measuring in various points of the feeder. The loads are adjusted during the iteractive process, in order to match the current in each switch, converging to the measured value specified by the input data. In a second stage of the work, sensibility parameters were derived taking as base the described load flow, with the objective of suporting further optimization processes. This parameters are found by calculating of the partial derivatives of a variable in respect to another, in general, voltages, losses and reactive powers. After describing the calculation of the sensibility parameters, the Gradient Method was presented, using these parameters to optimize an objective function, that will be defined for each type of study. The first one refers to the reduction of technical losses in a medium voltage feeder, through the installation of capacitor banks; the second one refers to the problem of correction of voltage profile, through the instalation of capacitor banks or voltage regulators. In case of the losses reduction will be considered, as objective function, the sum of the losses in all the parts of the system. To the correction of the voltage profile, the objective function will be the sum of the square voltage deviations in each node, in respect to the rated voltage. In the end of the work, results of application of the described methods in some feeders are presented, aiming to give insight about their performance and acuity
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Three-phase three-wire power flow algorithms, as any tool for power systems analysis, require reliable impedances and models in order to obtain accurate results. Kron's reduction procedure, which embeds neutral wire influence into phase wires, has shown good results when three-phase three-wire power flow algorithms based on current summation method were used. However, Kron's reduction can harm reliabilities of some algorithms whose iterative processes need loss calculation (power summation method). In this work, three three-phase three-wire power flow algorithms based on power summation method, will be compared with a three-phase four-wire approach based on backward-forward technique and current summation. Two four-wire unbalanced medium-voltage distribution networks will be analyzed and results will be presented and discussed. © 2004 IEEE.
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Nos últimos anos, o desenvolvimento sócio econômico da Região Sudeste do Estado do Pará, tem sido causado principalmente pela exploração e processamento industrial de minérios, que agregado ao crescimento populacional, tem gerado grande evolução na demanda do consumo de energia elétrica, devido à instalação cada vez mais crescente de novas cargas industriais, comerciais, residenciais e rurais monofásicas. Todo esse aumento de carga já está impactando diretamente o desempenho das subestações distribuidoras da Concessionária de Energia Elétrica, no que tange a manifestação de distúrbios de regime permanente causados por harmônicas, tais como zumbidos em transformador de força e rompimento de condutores de média tensão. Estes distúrbios são apresentado em um estudo de caso envolvendo as Subestações (SE´s) Itacaiúnas e Itupiranga. Para comprovar a nocividade desses distúrbios nessas SE´s, foram realizadas campanhas de medição para obtenção de resultados práticos e, então, executadas simulações envolvendo estudos de curtocircuito, fluxo de carga e propagação de harmônicos, de forma a se obter um diagnóstico analítico sobre as situações encontradas e assim, ser possível emitir recomendações para a mitigação dos problemas detectados. Este trabalho será de grande valia à Concessionária de Energia Elétrica, podendo ser tomado como uma das referências para estudos de qualidade de energia elétrica, em outras subestações, além de dar embasamento experimental às futuras cobranças da ANEEL, com relação à implantação dos Procedimentos de Distribuição de Energia Elétrica no Sistema Elétrico Nacional (PRODIST).
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Fontes renováveis de energia baseadas na geração fotovoltaica (GFV) são alternativas energéticas promissoras para a complementação da geração elétrica convencional e centralizada, como usinas térmicas a diesel que suprem potência para redes elétricas isoladas em cidades e localidades remotas na Amazônia. A alocação e o dimensionamento de geradores para aplicação como geração distribuída (GD) é um problema desafiador, com implicações técnicas e econômicas, relacionadas ao planejamento, projeto e operação da rede e, particularmente, a GFV em função das condições ambientais, principalmente radiação solar e temperatura ambiente. Esta tese apresenta uma metodologia analítica para alocar e dimensionar a potência ativa de unidades de geração fotovoltaica, composta pelo gerador FV integrado ao inversor CC/CA (GDFV) para integração, de forma concentrada ou dispersa em redes isoladas de média tensão, e contempla o atendimento de múltiplos objetivos, melhoria do perfil de tensão da rede, redução das perdas ativas e redução da participação da geração a diesel, proporcionando redução no consumo de óleo diesel e, consequentemente, redução da poluição ambiental. A solução global do método proposto constitui um compromisso em relação a esses objetivos, apresentando ponderações diferenciadas para os mesmos, de acordo com prioridades estabelecidas no planejamento do sistema elétrico sob estudo. Para validação da metodologia proposta, foram modeladas e simuladas as redes de 33 e 69 barras do IEEE e um sistema elétrico isolado, cuja usina térmica a diesel supre alimentação para a cidade de Aveiro-PA, Região Amazônica, obtendo-se como resultados dessas simulações melhoria significativa no perfil de tensão, redução nas perdas ativas e na potência de geração a diesel, de acordo com indicadores técnicos que permitem a avaliação quantitativa da integração da GDFV na rede elétrica.
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Pós-graduação em Engenharia Elétrica - FEIS
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The resistive-type superconducting fault current limiters (RSFCL) prototypes using YBCO-coated conductors have shown current limitation for medium voltage class applications for acting time up to 80 ms. By connecting an air-core reactor in parallel with the RSFCL, thus making an hybrid current limiter, one can extend the acting time for up to 1 s. In this work, we report the performance of a hybrid current limiter subjected to an AC peak fault current of 2 kA during 1 s for which within the first 80 ms the SFCL limits the current concurrently with the air-core reactor, and for the remaining 920 ms, only the air-core reactor limits the current. In order to evaluate the actual conditions for subsequent reconnection of RSFCL to the power grid, the hybrid fault current limiter was tested varying the time interval for recovery from 900 ms and 1.2 s, followed again by the concurrent operation of the hybrid limiter during 1 s (SFCL during 80 ms). From this evaluation test, the recovery time can be measured and compared using the voltage peak generated in superconducting module from the first and second fault test. The recovery time was also determined through the pulsed current method (PCM) on short-length sample test. The results showed that the fault current was limited from 1.9 kA down to 514 A after 1 cycle of 60 Hz frequency, with recovery time lower than 1.2 s for two subsequent fault current tests.
