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Nondestructive Testing of Overhead Transmission Lines: Numerical and Experimental InvestigationKulkarni, Salil Subhash 2009 December 1900 (has links)
Overhead transmission lines are periodically inspected using both on-ground and helicopter-aided visual inspection. Factors including sun glare, cloud cover, close proximity to power lines and the rapidly changing visual circumstances make airborne inspection of power lines a particularly hazardous task. In this research, a finite element model is developed that can be used to create the theoretical dispersion curves of an overhead transmission line. The complex geometry of the overhead transmission line is the primary reason for absence of a theoretical solution to get the analytical dispersion curves. The numerical results are then verified with experimental tests using a non-contact and broadband laser detection technique. The methodology developed in this study can be further extended to a continuous monitoring system and be applied to other cable monitoring applications, such as bridge cable monitoring, which would otherwise put human inspectors at risk.
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[en] ANALYSIS OF THE INSULATION OF AERIAL TRANSMISSION LINES SUBJECT TO VOLTAGE SURGES / [pt] ESTUDO DE ISOLAMENTO DE LINHAS AÉREAS DE TRANSMISSÃO SUBMETIDAS A SURTOS DE TENSÃOPAULO ALEXANDRE MACHADO 12 February 2008 (has links)
[pt] Vários aspectos de um sistema elétrico de potência devem
ser avaliados em detalhe antes de sua construção e
operação. A escolha dos níveis de isolamento utilizadas
é
editada pelas condições em regime permanente e de sobre
tensões que poderão ocorrer no sistema. Naturalmente, as
linhas de transmissão veículos de transporte de energia
estão intimamente ligadas a este problema. A sua
perfeita
operação determina níveis de atendimento apropriados aos
consumidores. Portanto, é de extrema importância que se
conheça o comportamento do isolamento do sistema de
transmissão. O presente trabalho tem por objetivo
fornecer
ao engenheiro condições d analisar a performance de uma
linha de transmissão quando submetida a surtos
atmosféricos e a surtos de manobra através de dois
programas desenvolvidos para o computador digital HP-
2100. / [en] Many aspects of an electric utility power system design
must be evaluated in detail prior to construction and
operation. The choice of insulation requirements on
eletric utility system equipment is dictated both by the
steady state conditions as well as by overvoltages which
can occur on the system. Transmission lines, which are the
way to carry energy, are certainly involved in this
problem. Therefore it is very important to know their
insulation behavior. The purpose of this work is to give
the engineer conditions to analyze transmission lines
behavior, by way of two digital programs, one concerning
lightining strokes and the other switching surges.
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Υπολογισμός υπερτάσεων λόγω κεραυνών σε συνδέσεις εναέριων γραμμών - υπόγειων καλωδίωνΔεληγιάννης, Αναστάσιος 19 July 2012 (has links)
Σκοπός της παρούσας διπλωματικής εργασίας είναι η μελέτη της συμπεριφοράς εναέριων γραμμών και υπόγειων καλωδίων μεταφοράς υψηλής τάσης έναντι κεραυνών. Για την εξυπηρέτηση του σκοπού αυτού, γίνεται προσομοίωση ενός υβριδικού δικτύου, αποτελούμενου τόσο από εναέριες γραμμές μεταφοράς όσο και από υπόγεια καλώδια, και μελέτη των μεταβατικών υπερτάσεων που εμφανίζονται σε αυτό λόγω κεραυνικών πληγμάτων σε έναν από τους αγωγούς προστασίας του τερματικού πυλώνα, όπου πραγματοποιείται η διασύνδεση εναέριας γραμμής-υπόγειου καλωδίου.
Στο πρώτο κεφάλαιο παρατίθενται κάποια θεωρητικά στοιχεία σχετικά με τις ατμοσφαιρικές υπερτάσεις. Αναλύονται τα είδη των κεραυνών, οι βασικές παράμετροι και τα κύρια χαρακτηριστικά τους. Επιπλέον, περιγράφονται οι επιπτώσεις από κεραυνικά πλήγματα και ο τρόπος εύρεσης της συχνότητας με την οποία συμβαίνουν κεραυνοί ανά περιοχή.
Στο δεύτερο κεφάλαιο γίνεται μία εισαγωγή στα Συστήματα Ηλεκτρικής Ενέργειας και αναπτύσσονται τα βασικά στοιχεία των εναέριων γραμμών και των υπόγειων καλωδίων μεταφοράς ηλεκτρικής ενέργειας. Επίσης, πραγματοποιείται μία σύγκριση αυτών των δύο τρόπων μεταφοράς ηλεκτρικής ενέργειας, παρουσιάζοντας τα θετικά και αρνητικά στοιχεία καθενός από αυτούς.
Στο τρίτο κεφάλαιο εξετάζονται τα είδη σφαλμάτων και τα αίτια δημιουργίας αυτών στις γραμμές μεταφοράς ηλεκτρικής ενέργειας. Επιπλέον, δίνονται κάποια βασικά χαρακτηριστικά για την κυματομορφή του κεραυνικού ρεύματος.
Στο τέταρτο κεφάλαιο αναλύεται η μόνωση και η προστασία τόσο των εναέριων γραμμών όσο και των υπόγειων καλωδίων έναντι κεραυνικών πληγμάτων. Εξετάζονται ακόμα οι μηχανισμοί που εγείρουν υπερτάσεις στη γραμμή μεταφοράς. Έπειτα, για τον καθορισμό της θέσης των αγωγών προστασίας της γραμμής, περιγράφονται οι μέθοδοι της μέγιστης γωνίας αλλά και η ηλεκτρογεωμετρική μέθοδος.
Στο πέμπτο κεφάλαιο αναπτύσσονται τα επιμέρους στοιχεία του υπολογιστικού προγράμματος ATP-EMTP, το οποίο θα αποτελέσει το μέσο εξομοίωσης για την παρούσα εργασία. Αναφέρονται τα σημεία υπεροχής και η καταλληλότητά του για τέτοιου είδους αναλύσεις και παρουσιάζονται τα επιμέρους υποπρογράμματα από τα οποία αποτελείται. Ιδιαίτερη έμφαση δίνεται στο ATPDraw, το οποίο είναι το κύριο όργανο της εξομοίωσης.
Στο έκτο κεφάλαιο περιγράφεται αναλυτικά το υβριδικό δίκτυο μεταφοράς υψηλής τάσης που χρησιμοποιείται στην εξομοίωση και αναλύονται τα στοιχεία που το αποτελούν, δηλαδή οι εναέριες γραμμές και τα υπόγεια καλώδια. Επιπλέον, παρουσιάζονται τα αποτελέσματα των εξομοιώσεων και οι γραφικές παραστάσεις των υπερτάσεων στα διάφορα σημεία του κυκλώματος, εξαιτίας κεραυνικών πληγμάτων, των οποίων το εύρος αυξάνει σε κάθε εξομοίωση.
Στη συνέχεια ελέγχεται η επικινδυνότητα των υπερτάσεων που εγείρονται για τα διάφορα μεγέθη κεραυνικού ρεύματος και εάν ο εξοπλισμός σε διαφορετικά σημεία του δικτύου αντέχει τις υπερτάσεις αυτές ή καταστρέφεται. Από τα αποτελέσματα προκύπτει ότι επικίνδυνες υπερτάσεις παρατηρούνται σε τμήματα της εναέριας γραμμής μεταφοράς πλησίον του σημείου κεραυνικού πλήγματος. Αντίθετα, το υπόγειο τμήμα του δικτύου αποδεικνύεται πιο ανθεκτικό, καθώς δεν εγείρονται επικίνδυνες υπερτάσεις ακόμα και για πολύ υψηλό κεραυνικό ρεύμα. / The purpose of this diploma thesis is the study of the behavior of overhead transmission lines and underground transmission cables against lightning. In favor of this purpose, a simulation of a hybrid transmission network takes place, which is composed of both overhead lines and underground cables, in order to examine transient overvoltages. These overvoltages are raised due to a lightning that strikes the shield wire of the terminal tower, where the interconnection of overhead line to underground cable takes place.
Chapter one presents the basic theory concerning atmospheric discharges. It describes the different types of lightning strikes, their parameters and basic characteristics. Furthermore, it analyzes the consequences of lightning and how to find the frequency that a lightning takes place in an area.
At the second chapter there is an introduction in the systems of electric energy and a presentation of the basic characteristics of overhead lines and underground cables. In addition, there is a comparison between those two means of electricity transmission.
Chapter three examines the types of errors and the causes of them at the electricity transmission lines. Moreover, it gives the basic parameters of the lightning current waveform.
Chapter four analyzes the insulation and protection of both overhead lines and underground cables against lightning. It also examines the mechanisms that raise overvoltages at the transmission lines. Afterwards, there are described two methods on how to define the place of shield wires at a transmission line.
Chapter five describes the ATP-EMTP simulation program, which is a specific software to simulate power systems. Its superiority for research like the present one is high lined and special emphasis is given to ATPDraw which is the main tool for the simulation.
At chapter six there is a detailed analysis of the hybrid network used in this simulation and of its basic components, which are the overhead lines and the underground cables. Furthermore, there is a presentation of the results of the simulation and the graphs of the overvoltages at different spots of the network, due to lightning strikes.
Afterwards, there is an evaluation of the risk of overvoltages that are raised for different lightning current sizes and if the equipment at different spots of the network sustains these overvoltages or it is destroyed. From the results, it is concluded that dangerous overvoltages are raised at sections of the overhead line near the lightning strike. On the contrary, the underground section of the network appears to be more resistant, as there are not raised dangerous overvoltages, even when the lightning current was too high.
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[en] INCREASE CAPABILITY IN EXISTENT TRANSMISSION LINES / [pt] RECAPACITAÇÃO DE LINHAS DE TRANSMISSÃOCLAUDIA MENEZES FERNANDES DE OLIVEIRA 08 November 2005 (has links)
[pt] A transmissão de energia elétrica através de linhas de
transmissão aéreas encontra um grau de dificuldade muito
grande na constituição de novas faixas de passagem e
licenciamento de obras, devido, principalmente, à questão
ambiental.
Por outro lado, a crescente demanda de energia do sistema
elétrico leva o sistema de transmissão a uma progressiva
elevação do carregamento de seus componentes, incluindo
linhas de transmissão. Desta forma, é fundamental o
desenvolvimento de técnicas que permitam aumentar a
capacidade de transporte de energia a baixo custo com as
instalações existentes e a recapacitação de linhas
existentes aparece como uma alternativa a ser analisada
nos estudos da expansão do sistema de transmissão.
O objetivo deste trabalho é apresentar alternativas de
técnicas de recapacitação de linha de transmissão, segundo
a ótica de dimensionamento elétrico e da determinação das
distâncias mínimas de coordenação de isolamento
necessárias na torre, visando maximizar a energia
transportada por área ocupada pela faixa da linha de
transmissão e com isso, reduzir a necessidade de
negociação de novas faixas de passagem com os órgãos de
licenciamento e a comunidade, diminuindo o impacto sobre o
ambiente e dando maior agilidade na ampliação da
capacidade de transporte da malha existente. Busca-se,
além disso, identificar, para diferentes níveis de tensão,
as possíveis alternativas de recapacitação aplicáveis à
linha de transmissão. / [en] The construction of new overhead transmission lines is,
nowadays, a difficult activity to achieve, as new right-of-
ways are not easily being permitted, due to environmental
restrictions.
On the other hand, the increase of electrical energy
demand leads the transmission system to over load its
components, including transmission lines. Therefore, it is
extremely important to develop techniques in order to
raise energy transmission capacity in low costs using the
existent components. Capability increase in existent
transmission lines is an alternative to be analyzed in
transmission system expansion studies.
This dissertation presents techniques to increase
capability in existent transmission lines, according to
electrical dimensioning and minimum distances needed in
towers evaluated in insulation coordination studies. The
aim is to maximize the transport capacity of an existent
transmission line, reducing the need of negotiating new
right-of-ways permit. This study also identifies, for
different voltage levels, te available alternatives of a
technique to increase the transmission line capability.
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[en] METHODIZATION OF TRANSMISSION LINE FOUNDATION - STUDY AND DESIGN / [pt] METODIZAÇÃO DO ESTUDO DAS FUNDAÇÕES PARA SUPORTES DE LINHAS DE TRANSMISSÃOLILIANE TOJEIRA VELOZO 27 August 2010 (has links)
[pt] As fundações dos elementos de apoio de uma linha aérea de transmissão de
energia elétrica situam-se ao longo de extensos traçados, onde diferentes
condições de apoio para as estruturas são encontradas em razão da variação
natural dos horizontes. Tal configuração pode levar alternativamente a se
programarem estudos e sondagens especiais em cada local de suporte, fazendo
crescer os custos e prazos de projeto, ou ao contrário, reduzindo drasticamente a
investigação, com prejuízos evidentes ao planejamento, execução e economia da
obra de implantação da linha de transmissão. Dessa maneira, são organizados e
propostos procedimentos para avaliação do terreno segundo as suas orografia,
hidrografia, geologia e pedologia e do ambiente atmosférico local, cujas
manifestações são capazes de impor severas solicitações às torres e,
indiretamente, às fundações. É eleita a região da bacia do rio da Prata para
constituir o grande cenário do estudo, quer pela abundância de dados e
informações disponíveis sobre linhas de transmissão já em carga, ou ainda em
construção, nessa região. Assim sendo, desenvolve-se uma metodização para
orientar o estudo dessas fundações, considerando o conjunto torre x terreno x
fundação e buscando soluções técnicas convenientes e economicamente
aceitáveis, atendendo assim ao binário desempenho-custo. Para as torres são
considerados os modelos auto-suportados e estaiados, o terreno é variado entre
algumas categorias identificadas na região e as fundações são representadas pelas
superficiais, em sapatas, e pelas profundas do tipo tubulão. Buscando, ainda,
auxiliar no aprimoramento dos projetos de fundações para suportes de linhas de
transmissão, é desenvolvido um estudo de confiabilidade estrutural tendo como
modelo algumas das fundações pré-selecionadas para a metodização
primariamente desenvolvida. São determinadas as probabilidades de falha dessas
fundações através do programa FERUM e, a partir do levantamento dos prejuízos
financeiros causados pela falha desses elementos, determina-se o risco de falha.
Por último, é desenvolvido um estudo paramétrico para avaliar a influência do
projeto de fundação, do tipo de solo e da velocidade de vento sobre a
probabilidade de falha. / [en] The transmission line tower foundations are executed following extensive
paths, where different structural foundation conditions are found, in reason of
natural horizontal ground layer variations. Then, one may alternatively to
schedule and to execute special and specific studies or, conversely, to
substantially reduce the geothecnical investigation, with sensible economical loses
in the transmission line design and behavior. In such way, a methodology is
proposed to evaluate conveniently the site according to its geology, orography ,
hydrography and pedology as well to related atmospheric local manifestations,
able to submit severe mechanical solicitations to the towers and their foundations.
In this way, one proposes a methodology to govern the study of these foundations,
considering the tower x site x foundation relations and searching for convenient
technical and acceptable economical solutions. Guyed and self-supported models
are considered for towers, and the foundations are represented by footings, as the
superficial type, and piers, as the deep type. The rio do Prata basin is chosen to
constitute the large scenery of the study, because its abundant available data
concerned to already operational transmission lines, or still under design and
construction ones. Moreover, seeking the improvement of the tower foundation
design a study based on structural reliability is developed considering some
foundation models selected as mentioned above. Foundation failure probabilities
are determined by the FERUM computational program and the risk of failure is
obtained from economical damages caused by foundation failures. In the last, a
parametric study is developed to evaluate how does the failure probability behave
according to variations in the foundation soil, wind velocity and footing
dimensions and depth.
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Energy Harvesting From Overhead Transmission Line Magnetic FieldsNajafi, Syed Ahmed Ali 31 May 2019 (has links)
No description available.
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