Estudo de metodologia para modelagem e simulação de tensões induzidas de origem atmosférica em linhas de distribuição protegidas por para-raios de \'ZN\'O\' / Study of methodology for modeling and simulation of induced voltages of atmospheric origin in distribution lines protected by \'ZN\'O\' surge arresters

Araújo, Marcel Ayres de

18 July 2013

As tensões induzidas e sobretensões geradas por descarga atmosféricas diretas e indiretas são um dos principais causadores de desligamentos não programados em redes de transmissão e distribuição. Estes desligamentos comprometem o fornecimento de energia a milhares de consumidores, sobretudo em regiões com constantes variações climáticas e com características orográficas bastante diversificadas, como apresentado no território brasileiro. Desse modo, cada vez mais esses fenômenos são estudados a fim de desenvolverem-se procedimentos para proteção contra distúrbios causados por descargas atmosféricas. Neste contexto, esta pesquisa contempla o estudo do estabelecimento das descargas atmosféricas indiretas e das tensões por elas induzidas em linhas de distribuição, assim como o assentamento das mesmas nestas redes de energia. Não obstante, utilizando-se um software capaz de representar transitórios eletromagnéticos são modelados e implementados um alimentador teste de distribuição e um sistema para estimação de tensões induzidas no domínio do tempo baseado no modelo de Sune Rusck. Também são modelados e implementados para-raios de óxido de zinco, de forma a representar suas características dinâmicas, para proteger a linha sob apreciação dos distúrbios provocados pelas tensões induzidas. A partir de uma análise comparativa entre a operação do sistema de distribuição em regime permanente e frente aos desdobramentos promovidos pelas tensões induzidas, é determinada a melhor configuração, localização e quantificação dos para-raios a serem instalados para proteção do sistema teste. Por meio da avaliação dos resultados das simulações computacionais observa-se a robustez da subestação e quais os ramos e cargas mais suscetíveis a perturbações frente às tensões induzidas, bem como a maior proteção oferecida pelos para-raios aos elementos conectados próximos aos seus nós de alocação. / The induced voltages and overvoltages generated by direct and indirect lightning are a major cause of not programmed shutdowns in transmission and distribution networks. These shutdowns compromise the power supply of thousands of consumers, especially in regions with frequent climatic variations and quite diverse orographic characteristics, as occurred on Brazilian soil. Thus, these phenomena are more and more studied in order to develop procedures for protection against disturbances caused by lightning. In this context, this research focuses on the study of the establishment of indirect lightning and the voltage induced by them on distribution lines, as well as their settlement on energy networks. However, using a software able to represent electromagnetic transients, a distribution test feeder and a system for estimating induced voltages in the time domain based on the Sune Rusck model are modeled and implemented. In addition, metal oxide surge arresters are modeled and implemented to represent its dynamic characteristics, in order to protect the line under consideration of disturbances caused by induced voltages. From a comparative analysis between the operation of the distribution system in steady state and facing the developments promoted by induced voltages, it is determined the best configuration, as well as the location and quantification of the surge arrester to be installed to protect the test system. Through evaluation of the results of computer simulations, it is observed the robustness of the substation and which branches and loads are more susceptible to the disturbances facing the induced voltages, and the greater protection offered by the surge arresters elements connected near to its nodes allocation.

Descargas atmosféricas indiretas

Distribution lines

Indirect lightning

Induced voltages

Linhas de distribuição

Metal oxide surge arresters

Para-raios de óxido de zinco

Tensões induzidas

Estudo de metodologia para modelagem e simulação de tensões induzidas de origem atmosférica em linhas de distribuição protegidas por para-raios de \'ZN\'O\' / Study of methodology for modeling and simulation of induced voltages of atmospheric origin in distribution lines protected by \'ZN\'O\' surge arresters

Marcel Ayres de Araújo

18 July 2013

As tensões induzidas e sobretensões geradas por descarga atmosféricas diretas e indiretas são um dos principais causadores de desligamentos não programados em redes de transmissão e distribuição. Estes desligamentos comprometem o fornecimento de energia a milhares de consumidores, sobretudo em regiões com constantes variações climáticas e com características orográficas bastante diversificadas, como apresentado no território brasileiro. Desse modo, cada vez mais esses fenômenos são estudados a fim de desenvolverem-se procedimentos para proteção contra distúrbios causados por descargas atmosféricas. Neste contexto, esta pesquisa contempla o estudo do estabelecimento das descargas atmosféricas indiretas e das tensões por elas induzidas em linhas de distribuição, assim como o assentamento das mesmas nestas redes de energia. Não obstante, utilizando-se um software capaz de representar transitórios eletromagnéticos são modelados e implementados um alimentador teste de distribuição e um sistema para estimação de tensões induzidas no domínio do tempo baseado no modelo de Sune Rusck. Também são modelados e implementados para-raios de óxido de zinco, de forma a representar suas características dinâmicas, para proteger a linha sob apreciação dos distúrbios provocados pelas tensões induzidas. A partir de uma análise comparativa entre a operação do sistema de distribuição em regime permanente e frente aos desdobramentos promovidos pelas tensões induzidas, é determinada a melhor configuração, localização e quantificação dos para-raios a serem instalados para proteção do sistema teste. Por meio da avaliação dos resultados das simulações computacionais observa-se a robustez da subestação e quais os ramos e cargas mais suscetíveis a perturbações frente às tensões induzidas, bem como a maior proteção oferecida pelos para-raios aos elementos conectados próximos aos seus nós de alocação. / The induced voltages and overvoltages generated by direct and indirect lightning are a major cause of not programmed shutdowns in transmission and distribution networks. These shutdowns compromise the power supply of thousands of consumers, especially in regions with frequent climatic variations and quite diverse orographic characteristics, as occurred on Brazilian soil. Thus, these phenomena are more and more studied in order to develop procedures for protection against disturbances caused by lightning. In this context, this research focuses on the study of the establishment of indirect lightning and the voltage induced by them on distribution lines, as well as their settlement on energy networks. However, using a software able to represent electromagnetic transients, a distribution test feeder and a system for estimating induced voltages in the time domain based on the Sune Rusck model are modeled and implemented. In addition, metal oxide surge arresters are modeled and implemented to represent its dynamic characteristics, in order to protect the line under consideration of disturbances caused by induced voltages. From a comparative analysis between the operation of the distribution system in steady state and facing the developments promoted by induced voltages, it is determined the best configuration, as well as the location and quantification of the surge arrester to be installed to protect the test system. Through evaluation of the results of computer simulations, it is observed the robustness of the substation and which branches and loads are more susceptible to the disturbances facing the induced voltages, and the greater protection offered by the surge arresters elements connected near to its nodes allocation.

Descargas atmosféricas indiretas

Linhas de distribuição

Para-raios de óxido de zinco

Tensões induzidas

Distribution lines

Indirect lightning

Induced voltages

Metal oxide surge arresters

Caractérisation et modélisation des potentiels induits par les commutations des gradients de champ magnétique sur les signaux électrophysiologiques en IRM / Caracterization and modeling of magnetic field switched gradient-induced voltages on electrophysiological signals in MRI

El Tatar, Aziz

29 March 2013

Les développements récents des techniques IRM engendre des sources de potentiels induits qui « polluent » les signaux électrophysiologiques, utilisé simultanément en IRM pour surveiller le patient et synchroniser les images. Le système élaboré dans ce travail est compose de deux modules « émetteur-récepteur » IRM-compatibles. Le premier permet d’introduire dans le tunnel d’IRM des signaux EPS dont on connait les caractéristiques. Les signaux sont injectés dans un tissu conducteur placé dans le tunnel. Le second module permet de recueillir les signaux après leur contamination par les artéfacts générés par les séquences d’imagerie. Il comporte 20 canaux répartis en quatre bandes fréquentielles (40, 80, 160 et 350 Hz). Des mesures du potentiel induit ont été réalisées en environnements 1,5 T et 3 T. Nous pouvons ainsi analyser les modifications des paramètres des signaux selon les séquences, mais aussi à l’intérieur des différentes bandes de fréquences. Dans ce travail, nous présentons une caractérisation et modélisation des potentiels induits par les commutations de gradients de champ magnétique recueilli par notre dispositif expérimental. La caractérisation et la modélisation permettent d’obtenir des informations pertinentes à prendre en compte pour l’élaboration des algorithmes de filtrage efficaces et robustes. / New developments in MRI techniques create sources of induced voltages that “pollute” the simultaneously acquired electrophysiological signals (EPS), used to monitor patients and/or synchronize images. We developed a device to allow a deep study of the contamination mechanism, which would assist in elaborating new tools to obtain higher quality EPS. The system consists of three main modules: (i) a signal transmission system composed of an EPS generator and a transmission box, which transmits the EPS to a MR-compatible receiver inside the tunnel, (ii) an electro-conductive tissue-mimicking phantom in which the EPS is injected, (iii) a signal collection module composed of a MR compatible amplifier-transmitter that emits, via an optical cable, the collected signal to a receiver box placed outside the MRI room. The receiver box comprises 20 channels distributed into four frequency bands (40, 80, 160, and 350 Hz). Measurements of the induced voltages were performed in 1.5 T and 3 T MRI environments. An algorithm to extract and analyze and model the induced voltages was developed. The modeling algorithm is based on a sinusoidal decomposition of the induced voltages. This work aimed to assess the disturbance level of the EPS, when using larger bandwidth amplifiers. The characterization and modeling of the induced voltages, which represent the dominant noise, reveal relevant information which can be used to develop robust and efficient noise reduction algorithms.

IRM

Potentiels induits

Signaux EPS

Etude expérimentale

MRI switched gradient-induced voltages

Signal modeling and characterization

Experimental study

A Study On High Voltage AC Power Transmission Line Electric And Magnetic Field Coupling With Nearby Metallic Pipelines

Gupta, Abhishek

08 1900

In the recent years, there has been a trend to run metallic pipelines carrying petroleum products and high voltage AC power lines parallel to each other in a relatively narrow strip of land. The case of electromagnetic interference between high voltage transmission lines and metallic pipelines has been a topic of major concern since the early 60’s. The main reasons for that are: • The ever increasing cost of right-of-ways, suitable for power lines and pipelines, along with recent environmental regulations, aiming to protect nature and wildlife, has forced various utilities to share common corridors for both high voltage power lines and pipelines. Therefore, situations where a pipeline is laid at close distance from a transmission line for several kilometers have become very frequent. • The rapid increase in energy consumption, which has led to the adoption of higher load and short circuit current levels, thus making the problem more acute. Due to this sharing of the right-of-way, overhead AC power line field may induce voltages on the metallic pipelines running in close vicinity leading to serious adverse effects. This electromagnetic interference is present both during normal operating conditions as well as during faults. The coupling of the field with the pipeline takes place either through the capacitive path or through the inductive or conductive paths. In the present work, the induced voltages due to capacitive and inductive coupling on metallic pipelines running in close vicinity of high voltage power transmission lines have been computed.The conductor surface field gradients calculated for the various phaseconfigurations have been presented in the thesis. Also the electric fields under transmission lines, for both single circuit and double circuit (various phase arrangements) have been analysed. Based on the above results, an optimum configuration giving the lowest field under the power line as well as the lowest conductor surface gradient has been arrived at and for this configuration induced voltage on the pipeline has been computed using the Charge Simulation Method (CSM). For comparison, induced voltages on the pipeline have been computed for the various other phase configurations also. A very interesting result is that the induced voltage on the pipeline becomes almost negligible at a critical lateral distance from the center of the powerline and beyond which the induced voltage again increases.This critical distance depends on the conductor configuration. Hence it is suggested that the pipeline be located close to the critical distance so that the induced voltage would be close to zero. For calculating the induced voltage due to the inductive coupling, electromotive force (EMF),induced along the pipeline due to the magnetic field created by the transmission line has been calculated. The potential difference between the pipeline and the earth, due to the above induced EMFs, is then calculated. As the zones of influence are generally formed by parallelism, approaches, crossings as well as removals, the computation involves subdividing the zone into several sections corresponding to these zones. The calculation of voltages is carried out at both the ends of the sections. Each section is represented by an equivalent π electrical network, which is influenced by the induced EMF. The induced EMF is calculated during faulted conditions as well as during steady state conditions. Inductive coupling calculations have been carried out for the following cases: •Perfect parallelism between powerline and pipeline. •zone of influences formed by parallelism, approaches, crossings and removals. It has been observed that when the pipeline is approaching the HV transmission line at an angle, then running parallel for certain distance and finally deviating away, the induced voltage is maximum at the point of approach or removal of the pipeline from the transmission line corridor.The induced voltage is almost negligible near to the midpoint of the zone of influence. The profile of the induced voltage also depend on whether the pipeline is grounded or left open circuited at the extremities of the zone of influence. Effect of earth resistivity and anti-corrosive coatings on induced voltage has also been studied. For mitigating the induced voltage on the pipeline,numerous low resistive earthings have been suggested. Results show that significant reduction in induced voltage can be achieved as the number of earth points is increased.

Electromagnetic Interference

Transients (Electric)

High Voltages

Electric Power Transmission

Power Lines - Coupling

Pipelines - Induced Voltages - Computing

Metallic Pipelines

Coupling

Charge Simulation Method (CSM)

Induced Voltage

Electrical Engineering

Lightning induced voltages in cables of power production centers / Tensions Induites par une agression foudre dans les câbles de contrôle-mesure des centres de production d'énergie

Diaz Pulgar, Luis Gerardo

29 November 2016

Lorsqu’un bâtiment d’un centre de production d’électricité est frappé par la foudre, il se produit une dangereuse circulation de courants dans tous les composants connectés au bâtiment: les murs, le réseau de terre, et les câbles sortant du bâtiment. L’intérêt du présent travail est d’étudier les tensions transitoires aux extrémités de ces câbles, en particulier des câbles contrôle mesure, dans la mesure où ces câbles sont connectés à des équipements électroniques susceptibles d’être endommagés par des perturbations électromagnétiques engendrées par la foudre. Une approche basée sur la résolution numérique des équations de Maxwell via une méthode FDTD est adoptée. Notamment le formalisme de Holland et Simpson est utilisé pour modéliser toutes les structures constituées d’un réseau de fils minces: l’armature métallique du bâtiment, la grille en cuivre du réseau de terre, la galerie de béton et le câble coaxial de contrôle mesure. Une validation des modèles électromagnétiques développés pour chaque composant du site industriel est présentée. Une analyse de sensibilité est conduite pour déterminer l’influence des paramètres du système. En outre, la technique des plans d’expérience est utilisée pour générer un méta-modèle qui prédit la tension maximale induite aux extrémités du câble en fonction des paramètres les plus influents. Cela représentent un outil de calcul précis et informatiquement efficace pour évaluer la performance foudre des câbles de contrôle et de mesure. / When lightning strikes a building in a Power Generation Center, dangerous currents propagates through all the components connected to the building structure: The walls, the grounding grid, and the cables leaving the building. It is the interest of this work to study the transient voltages at the terminations of these cables external to the building.Particularly, the Instrumentation and Measure (IM) cables, since they are connected to electronic equipment susceptible of damage or malfunctioning due to lightning ElectroMagnetic perturbations. A full wave approach based on the numerical solution of Maxwell’s equations through the FDTD algorithm is adopted. Notably, the formalism of Holland and Simpson is used to model all the structures composed of thin wires: the building steel structure, the grounding copper grid, the concrete cable ducts and the coaxial IM cables. A validation of the model developed for each component is presented. A sensitivity analysis is performed in order to the determine the main parameters that configure the problem. Also, the Design of Experiments (DoE) technique is used to generate a meta-model that predicts the peak induced voltages in the cable terminations, as a function of the main parameters that configure the industrial site. This represents an accurate, and computationally efficient tool to assess lightning performance of IM cables.

Tensions induites

Cables

Foudre

Centre de production d’électricité

FDTD

Fil mince

Plans d’expérience

Meta-modèles

Induced voltages

Cables

Lightning

Power generation centers

FDTD

Thin wire

Design of experiments

Meta-models

621.31