Nonlinear electrical networks.

Includes bibliography.

Communication Solutions for LVDC Island Networks

Production and generation of electrical power is evolving to more environmental friendly technologies and schemes. Pushed by the increasing cost of fossil fuels, the operational costs of producing electrical power with fossil fuels and the effect in the environment, like pollution and global warming, renewable energy sources gain con-stant impulse into the global energy economy. In consequence, the introduction of distributed energy sources has brought a new complexity to the electrical networks. In the new concept of smart grids and decen-tralized power generation; control, protection and measurement are also distributed and requiring, among other things, a new scheme of communication to operate with each other in balance and improve performance. In this research, an analysis of different communication technologies (power line communication, Ethernet over unshielded twisted pair (UTP), optic fiber, Wi-Fi, Wi-MAX, and Long Term Evolution) and their respective characteristics will be carried out. With the objective of pointing out strengths and weaknesses from different points of view (technical, economical, deployment, etc.) to establish a richer context on which a decision for communication approach can be done depending on the specific application scenario of a new smart grid deployment. As a result, a description of possible optimal deployment solutions for communication will be shown considering different options for technologies, and a mention of different important considerations to be taken into account will be made for some of the possible network implementation scenarios.

Short-term multinodal load forecasting in distribution systems using general regression neural networks

Multinodal load forecasting deals with the loads of several interest nodes in an electrical network system, which is also known as bus load forecasting. To perform this demand, it is necessary a technique that is precise, trustable and has a short-time processing. This paper proposes two methodologies based on general regression neural networks for short-term multinodal load forecasting. The first individually forecast the local loads and the second forecast the global load and individually forecast the load participation factors to estimate the local loads. To design the forecasters it wasn't necessary the previous study of the local loads. Tests were made using a New Zealand distribution subsystem and the results obtained are compatible with the ones founded in the specialized literature. © 2011 IEEE.

Silicone insulators of power transmission lines with a variable inorganic load concentration: Electrical and physiochemical analyses

Polymeric insulation is an increasing tendency in projects and maintenance of electrical networks for power distribution and transmission. Electrical power devices (e. g., insulators and surge arresters) developed by using polymeric insulation presents many advantages compared to the prior power components using ceramic insulation, such as: a better performance under high pollution environment; high hydrophobicity; high resistance to mechanical, electrical and chemical stresses. The practice with silicone insulators in polluted environments has shown that the ideal performance is directly related to insulator design and polymer formulation. One of the most common misunderstandings in the design of silicone compounds for insulators is the amount of inorganic load used in their formulation. This paper attempts to clarify how the variation of the inorganic load amount affects physicochemical characteristics of different silicone compounds. The physicochemical evaluation is performed from several measurements, such as: density, hardness, elongation, tensile strength. In addition, the evaluation of the physicochemical structure is carried out using infrared test and scanning electronic microscopy (SEM). The electrical analysis is performed from the electric tracking wheel and erosion test, in agreement with the recommendation of the International Electrotechnical Commission (IEC). (C) 2014 Elsevier Ltd. All rights reserved.

State of the Art and Future Trends in Grid Codes Applicable to Isolated Electrical Systems

Electrical power systems are changing their traditional structure, which was based on a little number of large generating power plants placed at great distances from loads by new models that tend to split the big production nodes in many smaller ones. The set of small groups which are located close to consumers and provide safe and quality energy is called distributed generation (DG). The proximity of the sources to the loads reduces losses associated with transportation and increases overall system efficiency. DG also favors the inclusion of renewable energy sources in isolated electrical systems or remote microgrids, because they can be installed where the natural resource is located. In both cases, as weak grids unable to get help from other nearby networks, it is essential to ensure appropriate behavior of DG sources to guarantee power system safety and stability. The grid codes sets out the technical requirements to be fulfilled for the sources connected in these electrical networks. In technical literature it is rather easy to find and compare grid codes for interconnected electrical systems. However, the existing literature is incomplete and sparse regarding isolated electrical systems and this happens due to the difficulties inherent in the pursuit of codes. Some countries have developed their own legislation only for their island territory (as Spain or France), others apply the same set of rules as in mainland, another group of island countries have elaborated a complete grid code for all generating sources and some others lack specific regulation. This paper aims to make a complete review of the state of the art in grid codes applicable to isolated systems, setting the comparison between them and defining the guidelines predictably followed by the upcoming regulations in these particular systems.

VPP´s multi-level negotiation in smart grids and competitive electricity markets

The increase of distributed generation (DG) has brought about new challenges in electrical networks electricity markets and in DG units operation and management. Several approaches are being developed to manage the emerging potential of DG, such as Virtual Power Players (VPPs), which aggregate DG plants; and Smart Grids, an approach that views generation and associated loads as a subsystem. This paper presents a multi-level negotiation mechanism for Smart Grids optimal operation and negotiation in the electricity markets, considering the advantages of VPPs’ management. The proposed methodology is implemented and tested in MASCEM – a multiagent electricity market simulator, developed to allow deep studies of the interactions between the players that take part in the electricity market negotiations.

Intelligent SCADA for load control

A supervisory control and data acquisition (SCADA) system is an integrated platform that incorporates several components and it has been applied in the field of power systems and several engineering applications to monitor, operate and control a lot of processes. In the future electrical networks, SCADA systems are essential for an intelligent management of resources like distributed generation and demand response, implemented in the smart grid context. This paper presents a SCADA system for a typical residential house. The application is implemented on MOVICON™11 software. The main objective is to manage the residential consumption, reducing or curtailing loads to keep the power consumption in or below a specified setpoint, imposed by the costumer and the generation availability.

Fractional order models of leaves

Leaves are mainly responsible for food production in vascular plants. Studying individual leaves can reveal important characteristics of the whole plant, namely its health condition, nutrient status, the presence of viruses and rooting ability. One technique that has been used for this purpose is Electrical Impedance Spectroscopy, which consists of determining the electrical impedance spectrum of the leaf. In this paper we use EIS and apply the tools of Fractional Calculus to model and characterize six species. Two modeling approaches are proposed: firstly, Resistance, Inductance, Capacitance electrical networks are used to approximate the leaves’ impedance spectra; afterwards, fractional-order transfer functions are considered. In both cases the model parameters can be correlated with physical characteristics of the leaves.

Impacto da Microprodução na Forma de Onda de Tensão na Rede de Distribuição de Energia

Actualmente tem sido dada uma importância à energia de origem renovável. No entanto, o conceito de fonte de energia renovável não significa necessariamente que essas fontes sejam renováveis, para o que seria necessário considerar os impactos que a sua produção e utilização tem ao nível dos três pilares fundamentais da sustentabilidade: o social, o ambiental e o económico. Num mundo cada vez mais insustentável, a busca por melhorias ao nível da eficiência energética constitui uma prioridade. A dissertação que aqui se apresenta visa essencialmente analisar o problema que representa a produção distribuída de energia para a amplitude e forma de onda de tensão na rede de distribuição. Sendo do conhecimento dos especialistas que as cavas de tensão constituem um problema significativo, a questão das harmónicas ainda é uma área em desenvolvimento. No caso de estudo que é apresentado no âmbito desta dissertação, pretendeu-se analisar esta problemática ao nível da amplitude e forma da onda de tensão na rede de distribuição. Foi possível tirar algumas ilações relativas ao impacto que a microprodução a partir de fonte FV tem, através da utilização do equipamento de medição adequado. Conclui-se que existe, efetivamente, uma distorção da forma de onda, distorção essa que constitui não só uma desvantagem para os consumidores de energia, visto poder causar efeitos colaterais nos seus equipamentos, mas também um problema de eficiência energética, obrigando a que no futuro, e assumindo que estes sistemas vão proliferar em larga escala a nível global, exista uma exigência em termos de requisitos técnicos como o aumento da secção do cabo elétrico e a respectiva ramificação da rede para a distribuição de energia que por si só, é insustentável.

Un gegant del cel en perill d'extinció : socialització i divulgació de la reintroducció del voltor negre a Catalunya

La interacció de l’home amb les diferents espècies amb les quals cohabita ha creat casos com el del Voltor Negre (Aegypius monachus), l’au necròfaga més gran d’Europa, que actualment es troba en perill d’extinció. La utilització del territori per a ús antropogènic (ramaderia, xarxes elèctriques, zones urbanes,...) ha fet disminuir la població d’aquesta espècie. Així com la incursió, de manera indirecta, en aquestes poblacions degut a l’acció de l’home podem destacar-ne’n dos, el més rellevant és la intoxicació per verí, degut a l’ús il·legal d’aquestes substàncies per al control de depredadors fa que els tòxics vagin pujant per la piràmide tròfica. La segona causa rellevant és la disminució d’aliment degut a la mixomatosis i a la normativa existent d’obligatorietat de retirada dels animals morts a muntanya per sota dels 1400m. Al fer l’anàlisi de problemàtiques, s’observa que la gran majoria són antròpiques, degudes a la desinformació i al desconeixement, per tant; per a realitzar un bon pla de reintroducció és necessari fer un treball previ de socialització de les poblacions de la zona per a que el projecte sigui eficient. El projecte consisteix en fer una conscienciació social als diferents grups implicats (turisme, escoles i població; ramaders i caçadors), mitjançant documents gràfics, material educatiu, material de suport i materials i mètodes de divulgació. Per a que la vall d’Alinyà i Boumort passin a ser destacades per la presencia establerta de les quatre aus necròfagues més rellevants d’Europa; l’Aufrany, el Trencalòs, el voltor comú i el nostre protagonista: el Voltor Negre.

Teollisuusverkon stabiilisuus saarekekäyttöön siirryttäessä

Työn aluksi on käsitelty sähkövoimajärjestelmien stabiilisuutta yleisesti. Myös teollisuuden sähköverkkojen erityispiirteitä on tarkasteltu. Teollisuusverkkojen komponentteja koskevassa selvityksessä eri laitteet on käsitelty siten, että niiden tärkeimmät ominaisuudet verkon erilaisissa muutostilanteissa tulevat esille. Tahtigeneraattorit ja epätahtikoneet on käsitelty yksityiskohtaisesti. Tutkimuksessa on esitelty teollisuusverkon saarekekäyttöön johtavia syitä, saarekkeeseen siirtymisen kriteereitä ja saarekekäytön toteutustapoja. Tehonvajaussuojaukseen liittyen on tutustuttu kuormanpudotusjärjestelyihin. Myös höyryverkon kuormien tasausten mahdollisuuksiin on luotu katsaus. Verkostolaskentaa käsittelevässä luvussa on keskitytty sopivan laskentamallin luomiseen liittyviin menetelmiin ja rajoituksiin. Lisäksi on kerrottu työn käytännön osan laskentamallin luomisen keskeiset periaatteet. Työn lopuksi on suoritettu simulointeja, joissa on tutkittu erään teollisuusverkon stabiilisuutta saarekekäyttöön siirryttäessä Calpos-verkostolaskentaohjelmistolla.

Sähkönjakeluverkkoyhtiöiden kokemuksia liiketoiminnan taloudellisesta sääntelystä kolmannella valvontajaksolla 2012 - 2015

TIIVISTELMÄ Tekijä: Jouni Pyykkö Työn nimi: Sähkönjakeluverkkoyhtiöiden kokemuksia liiketoiminnan taloudellisesta sääntelystä kolmannella valvontajaksolla 2012 - 2015 Vuosi: 2014 Paikka: Hyvinkää Diplomityö. Lappeenrannan teknillinen yliopisto, Tuotantotalous. 115 sivua, 9 kuvaa, 2 taulukkoa Tarkastajat: Professori Timo Pihkala ja Tutkijatohtori Marita Rautiainen Hakusanat: Jakeluverkkoyhtiö, regulaatio ja sääntely Euroopan unionin 1990 -luvulla aloittama sähkömarkkinoiden kehittäminen on merkinnyt Suomessakin suuria muutoksia toimialan yrityksille. Sähköenergian kauppa ja tuotanto on saatettu vapaan markkinaehtoisen kilpailun piriin. Sen sijaan sähkönsiirron ja -jakelun liiketoiminnot on toteutettu alueellisten luonnollisten monopolien turvaamina liiketoimintamalleina. Monopolin kautta toteutettu liiketoiminta aiheuttaa merkittäviä eturistiriitoja sähkönjakeluverkkoliiketoiminnan sidosryhmille. Nämä ristiriidat voivat johtaa kuluttajan kannalta kohtuuttomaan sähkönsiirron hinnoitteluun. Toisaalta liiketoiminnan on turvattava jakeluverkkoyhtiölle riittävät kannusteet liiketoiminnan harjoittamiseen sekä turvata riittävät investointitasot sähköverkkoihin sähkönlaadun ja toimitusvarmuuden turvaamiseksi. Näiden eri sähkönjakeluliiketoiminnan sidosryhmien tarpeiden tasapainottamiseen käytetään Suomessa energiamarkkinaviranomaisen toteuttamaa verkkoyhtiöiden sääntelyä eli regulaatiota. Sääntelyn tavoitteena on turvata jakeluverkkoliiketoiminnan osapuolten ristiriitaiset edut niin, että kokonaisuuden aiheuttama hyvinvointitappio on mahdollisimman pieni. Tässä työssä tarkastellaan sääntelyn toimivuutta ja ongelmakohtia jakeluverkkoyhtiöiden liiketoiminnan näkökulmasta. Tutkimus on toteutettu haastattelemalla yhdeksää jakeluverkkoyhtiön edustajaa. Tavoitteena on löytää jakeluverkkoyhtiöiden näkökulmasta esiin nousevat sääntelyyn liittyvät ongelmat ja liiketoiminnan haasteet. Tutkielmassa luodaan myös kuvaus keskeisistä valvontamenetelmistä sekä toimenpiteistä, joilla jakeluverkkoyhtiöiden näkökulmasta sääntelymallia voisi parantaa ja tehostaa.

Inclusão do efeito corona em modelos de linhas de transmissão bifásica utilizando a técnica de variáveis de estado

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Um novo modelo de transformadores trifásicos para análise harmônica trifásica em sistemas de distribuição

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)