Improved fault localization method for electrical power distribution networks / Améliorations de méthodes de localisation de défauts pour les réseaux de distribution électrique

Marguet, Raphaël

05 March 2015

Ces travaux proposent des améliorations de méthodes de localisation desdéfauts électriques sur les réseaux électriques de distribution. Les réseaux de transportont rapidement été instrumenté en élément de protection. En effet, un incident survenantsur le réseau de transport peut entrainer de graves conséquences s’il n’est pas traité rapidement.Les réseaux de distribution quand à eux possèdent un schéma de protectionminimal. Cependant le développement des smart grids (ou réseaux intelligents) amène denouvelles possibilités avec l’ajout d’équipements de mesures sur le réseau de distribution.Les travaux présentés dans cette thèse développent deux méthodes de localisation de défaut.La première permet de mieux utiliser l’équipement déjà en place (indicateurs depassage de défaut) afin d’isoler de manière rapide et fiable la zone concernée par le défaut.La deuxième permet une localisation précise (en distance) des différents lieux de défautspossibles à partir de mesures électriques. / This thesis proposes to improve fault localization methods for electricalpower distribution networks. Transmission networks were quickly equipped with protectionand fault localization equipments. Indeed, faults on the transmission network need tobe dealt with quickly in order to avoid serious consequences. Unlike transmission networks,distribution networks have a minimal protection scheme. The smart grid developmentsbring new possibilities with the installation of new equipments giving access to many newvariables. The work presented in this thesis develop two fault localization method. Thefirst aims in using the equipment already installed (fault indicators) in order to isolatequickly and efficiently the zone concerned by the fault. The second method performs aprecise localization (in distance) of the different possible fault locations from the electricalmeasurements made on the network.

Défauts

Localisation

Réseaux de distribution

Moyenne tension

Indicateurs de défaut

Faults

Fault localization

Distribution network

Medium voltage

Fault indicators

620

CLASSIFICATION OF HIGH IMPEDANCE FAULTS, INCIPIENT FAULTS AND CIRCUIT BREAKER RESTRIKES DURING CAPACITOR BANK DE-ENERGIZATION IN RADIAL DISTRIBUTION FEEDERS

Almalki, Mishrari Metab

01 May 2018

Monitoring of abnormal events in a distribution feeder by using a single technique is a challenging task. Many abnormal events can cause unsafe operation, including a high impedance fault (HIF) caused by a downed conductor touch ground surface, an incipient fault (IF) caused by partial breakdown to a cable insulation, and a circuit breaker (CB) malfunction due to capacitor bank de-energization to cause current restrikes. These abnormal events are not detectable by conventional protection schemes. In this dissertation, a new technique to identify distribution feeder events is proposed based on the complex Morlet wavelet (CMW) and on a decision tree (DT) classifier. First, the event is detected using CMW. Subsequently, a DT using event signatures classifies the event as normal operation, continuous and non-continuous arcing events (C.A.E. and N.C.A.E.). Additional information from the supervisory control and data acquisition (SCADA) can be used to precisely identify the event. The proposed method is meticulously tested on the IEEE 13- and IEEE 34-bus systems and has shown to correctly classify those events. Furthermore, the proposed method is capable of detecting very high impedance incipient faults (IFs) and CB restrikes at the substation level with relatively short detection time. The proposed method uses only current measurements at a low sampling rate of 1440 Hz yielding an improvement of existing methods that require much higher sampling rates.

circuit breaker (CB) restrikes

high impedance fault (HIF)

incipient fault (IF)

medium-voltage distribution system

wavelet transforms

Análise comparativa de inversores multiníveis com células h-bridge conectadas em série / Comparison analysis of cascaded multilevel inverters

Zambra, Diorge Alex Báo

20 April 2006

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This Master Thesis presents a methodology to compare different topologies and configurations of multilevel systems applied to drive medium voltage induction motors. Initially, it presents the input and output parameters that must be supplied by the power drivesystems manufacturer. Then, the mathematical models of the performance indexes used are presented, being, the total harmonic distortion, first order distortion factor and the power losses of the main semiconductors devices. After, it is presented a methodology that allows the amplitude selection of DC sources for the inverter with a specific number of cascaded Hbridge cells. A study regarding the hybrid multilevel modulation strategies and the impact of their variations on the semiconductors devices power losses of the output inverter is developed. Based on this study, it is proposed a new hybrid multilevel modulation technique, it minimizes the semiconductors power losses and allow the use of front-end uncontrolled rectifiers without modifying the total harmonic distortion of the output voltage inverter. After, it is developed a comparative study between the asymmetrical hybrid multilevel inverter and the symmetrical multilevel inverter, which enables the determination of the switching frequency for the one determined performance and the maximum switching frequency of each converter. This Master Thesis presents complementary methods of design of the hybrid multilevel inverter and a methodology that will make possible to choose the drive system that presents high efficiency and reduced cost, neither penalizing the energy quality of the utility grid nor the induction motor constraints. / Esta Dissertação de Mestrado apresenta uma metodologia para comparar diferentes topologias e configurações de sistemas multiníveis aplicados ao acionamento de motores de indução de média tensão. Inicialmente são apresentados os parâmetros de entrada e saída que devem ser fornecidos pelos fabricantes de sistemas de acionamento de alta potência. Então, são apresentados os modelos matemáticos dos índices de desempenho utilizados, sendo eles, distorção harmônica total, fator de distorção de primeira ordem e perdas nos dispositivos semicondutores principais. Posteriormente, é apresentada uma metodologia que permite selecionar a amplitude das fontes CC para um inversor com um número específico de células H-bridge conectadas em série. Um estudo a respeito das estratégias de modulação multinível híbrida e o impacto de suas variações sobre as perdas dos dispositivos semicondutores do inversor de saída é apresentado. Fundamentado neste estudo, é proposta uma nova técnica de modulação multinível hibrida, que minimiza as perdas nos semicondutores e permite o uso de retificadores não controlados no estágio de entrada sem modificar a distorção harmônica total da tensão de saída do inversor. Depois, é desenvolvido um estudo comparativo entre o inversor multinível híbrido assimétrico e o inversor multinível simétrico, que permite a determinação da freqüência de comutação para um rendimento específico e a máxima freqüência de comutação de cada conversor. Esta Dissertação de Mestrado apresenta métodos complementares de projeto de inversores multiníveis híbridos e uma metodologia que possibilitará escolher sistemas de acionamento que apresentem alta eficiência e custo reduzido, sem por isso prejudicar a qualidade da energia drenada da rede pública e fornecida ao motor de indução.

Eletrônica de potência

Conversores multiníveis híbridos

Média tensão

Power Electronics

Hybrid multilevel converters

Medium voltage

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Challenges and Solutions of Applying Medium-Voltage Silicon Carbide Devices in Medium and High-Voltage Systems

Hu, Boxue

January 2019

No description available.

Electrical Engineering

Design of a 405/430 kHz, 100 kW Transformer with Medium Voltage Insulation Sheets

Sharfeldden, Sharifa

27 July 2023

To achieve higher power density, converters and components must be able to handle higher voltage and current ratings at higher percentages of efficiency while also maintaining low cost and a compact footprint. To meet such demands, medium-voltage resonant converters have been favored by researchers for their ability to operate at higher switching frequencies. High frequency (HF) operation enables soft switching which, when achieved, reduces switching losses via either zero voltage switching (ZVS) or zero current switching (ZCS) depending on the converter topology. In addition to lower switching losses, the converter operates with low harmonic waveforms which produce less EMI compared to their hard switching counterparts. Finally, these resonant converters can be more compact because higher switching frequencies imply decreased volume of passive components. The passive component which benefits the most from this increased switching frequency is the transformer. The objective of this work is to design a >400 kHz, 100 kW transformer which will provide galvanic isolation in a Solid-State Transformer (SST) based PEBBs while maintaining high efficiency, high power density, and reduced size. This work aims to present a simplified design process for high frequency transformers, highlighting the trade-offs between co-dependent resonant converter and transformer parameters and how to balance them during the design process. This work will also demonstrate a novel high frequency transformer insulation design to achieve a partial discharge inception voltage (PDIV) of >10 kV. / Master of Science / As the world's population expands and countries progress, the demand for electricity that is high-powered, highly efficient, and dependable has increased exponentially. Further, it is integral to the longevity of global life that this development occurs in a fashion that mitigates environmental consequences. The power and technology sectors have been challenged to address the state of global environmental affairs, specifically regarding climate change, carbon dioxide emissions, and resource depletion. To move away from carbon emitting, non-renewable energy sources and processes, renewable energy sources and electric power systems must be integrated into the power grid. However, the challenge lies in the fact that there is not an easy way to interface between these renewable sources and the existing power grid. Such challenges have undermined the widespread adoption of renewable energy systems that are needed to address environmental issues in a timely manner. Recent developments in power electronics have enabled the practical application of the solid-state transformer (SST). The SST aims to replace the current, widespread form of power transformation: the line frequency transformer (50/60 Hz). This transformer is bulky, expensive, and requires a significant amount of additional circuitry to interface with renewable energy sources and electric power systems. The SST overcomes these drawbacks through high frequency operation (>200 kHz) which enables higher power at a reduced size by capitalizing on the indirect proportionality between the two parameters. The realization of the SST and its implementation has the ability to greatly advance the electrification of the transportation industry which is a top contributor to carbon emissions. This work aims to demonstrate a >400 kHz, 100 kW SST with a novel magnetic design and insulation structure suited for electric ship applications.

High Frequency Transformer

Planar Windings

Medium Voltage Insulation

Electric Field Analysis

Electric Field Mitigation

Resonant Converter

Litz Wire

Evaluation and Development of Medium-Voltage Converters Using 3.3 kV SiC MOSFETs for EV Charging Application

Gill, Lee

05 August 2019

The emergence of wide-bandgap-based (WBG) devices, such as silicon carbide (SiC) and gallium nitride (GaN), have unveiled unprecedented opportunities, enabling the realization of superior power conversion systems. Among the potential areas of advancement are medium-voltage (MV) and high-voltage (HV) applications, due to the growing demand for high-power-density and high-efficiency power electronics converters. These advancements have propelled a wide adoption of electric vehicles (EV), which in the future will require great improvements in the charging time of these vehicles. Thereby, this thesis attempts to address such a challenge and bring about technological improvements, enabling faster, more efficient, and more effective ways of charging an electric vehicle through the application of MV 3.3 kV SiC MOSFETs. The current fast-charging solution involves heavy and bulky MV-LV transformers, which add installation complexity for EV charging stations. However, this thesis presents an alternative power-delivery solution utilizing an MV dual-active-bridge (DAB) converter. The proposed architecture is designed to directly interface with the MV grid for high-power, fast-charging capabilities while eliminating the need for an installation of the MV-LV transformer. The MV DAB converter utilizes 3.3 kV SiC MOSFETs to realize the next 800 V EV charging system, along with an extended zero-voltage-switching (ZVS) scheme, in order to provide an efficient charging strategy across a wide range of battery voltage levels. Lastly, a detailed design comparison analysis of an MV Flyback converter, targeted for the auxiliary power supply for the proposed MV EV charging architecture, is presented. / The field of power electronics, which controls and manages the conversion of electrical energy, is an important topic of discussion, as new technologies like electric vehicles (EV) are quickly emerging and disrupting the current status-quo of vehicle-choice. In order to promote timely and extensive adoption of such an enabling EV technology, it is critical to understand the current challenges involving EV charging stations and seek out opportunities to engender future innovations. Indeed, wide-bandgap (WBG) devices, such as silicon carbide (SiC) and gallium nitride (GaN), have unveiled unprecedented opportunities in enabling the realization of superior power conversion systems. Thus, utilizing these WGB devices in EV charging applications can bring about improved design and development of EV fast chargers that are faster-charging, more efficient, and more effective. Hence, this thesis presents an opportunity in EV charging station applications with the utilization of medium-voltage SiC MOSFETs. Because the current fast-charging solution involves a heavy and bulky transformer, it adds installation complexity for EV charging stations. However, this thesis presents an alternative power-delivery solution that could potentially provide an efficient and fast-charging mechanism of EVs while reducing the size of EV chargers. All things considered, this thesis provides in-depth evaluation-studies of medium-voltage 3.3 kV SiC MOSFET-based power converters, targeted for future fast EV charging applications. The development and design of the hardware prototype is presented in this thesis, along with testing and verification of experimental results.

power electronics

dual active bridge (DAB)

flyback

silicon carbide (SiC)

wide-bandgap (WBG)

medium-voltage (MV)

electric vehicle (EV)

Ανάλυση σφαλμάτων δικτύου μέσης τάσης νήσου Ρόδου από κεραυνούς

Έλληνας, Εμμανουήλ

08 January 2014

Στην παρούσα διπλωματική εργασία θα μελετηθεί η συμπεριφορά των γραμμών Μέσης Τάσης (Διανομής), όταν αυτές πλήττονται από κεραυνούς είτε άμεσα είτε έμμεσα. Οι κεραυνοί είναι ένα φυσικό φαινόμενο με επικίνδυνες συνέπειες για την ασφάλεια των ανθρώπων, κτιρίων και ηλεκτρικών εγκαταστάσεων. Οι γραμμές του ηλεκτρικού δικτύου (είτε Υψηλής είτε Μέσης είτε Χαμηλής Τάσης) είναι ευάλωτες σε πλήγματα κεραυνών. Όταν ένας κεραυνός πλήξει άμεσα μια γραμμή ή το γειτονικό της έδαφος, τότε θα εμφανισθούν σφάλματα στο ηλεκτρικό δίκτυο υπό μορφή επικίνδυνων υπερτάσεων. Οι υπερτάσεις αυτές σε πολλές περιπτώσεις μπορεί να υπερβαίνουν την κρουστική τάση αντοχής της μόνωσης του δικτύου με αποτέλεσμα,αν δεν υπάρχουν διατάξεις προστασίας, να διασπαστεί το διάκενο προκαλώντας ανεπανόρθωτη ζημιά στον εξοπλισμό μας. Η μελέτη για τη συμπεριφορά των εναέριων γραμμών διανομής εμπεριέχει αρκετές προσεγγίσεις. Μερικές από αυτές αφορούν κάποιες βασικές παραμέτρους όπως, η πυκνότητα των κεραυνών στο έδαφος (GFD) και το πλήθος των άμεσων πληγμάτων στη γραμμή. Προκειμένου να εξάγουμε ασφαλή δεδομένα συμβουλευόμαστε τους αντίστοιχους μετεωρολογικούς πίνακες-χάρτες ( π.χ Ισοκεραυνικοί χάρτες). Στο πρώτο κεφάλαιο της εργασίας παρουσιάζεται το φυσικό φαινόμενο του κεραυνού καθώς και τα βασικά χαρακτηριστικά αυτού. Εξετάζονται τα είδη των κεραυνών και η εξομοίωση του σε εργαστηριακές συνθήκες μέσω κρουστικής τάσης για δοκιμές της αντοχής των μονώσεων. Στο δεύτερο κεφάλαιο γίνεται παρουσίαση της μορφής των συστημάτων ηλεκτρικής ενέργειας με ιδιαίτερη έμφαση στο σύστημα διανομής. Παρουσιάζεται η δομή του συστήματος διανομής , τα επιμέρους μέρη και εξαρτήματα από τα οποία αποτελείται καθώς και τα χαρακτηριστικά τους. Στο τέλος του κεφαλαίου παρουσιάζονται δεδομένα και στατιστικά του ελληνικού συστήματος διανομής. Στο τρίτο κεφάλαιο, γίνεται μια σντομη παρουσίαση των σφαλμάτων και υπερτάσεων που παρουσιάζονται στο σύστημα διανομής καθώς και των μέσω προστασίας που χρησιμοποιούμε προκειμένου να εξασφαλίσουμε την αδιάλειπτη λειτουργία και ακεραιότητα του συστήματος μας. Στο τέταρτο κεφάλαιο, αναφέρεται η οδηγία της IEEE για τη συμπεριφορά των εναέριων γραμμών διανομής ηλεκτρικής ενέργειας έναντι κεραυνών. Σκοπός είναι να παρουσιάσει εναλλακτικές λύσεις για τη μείωση των βραχυκυκλωμάτων που προκαλούνται από κεραυνό στις εναέριες γραμμές. Συγκεκριμένα θα προσδιορισθεί η συμπεριφορά των εναέριων γραμμών διανομής σε περίπτωση πτώσης κεραυνού (πλήγματα κεραυνών και βραχυκυκλώματα από επαγόμενη τάση), το επίπεδο μόνωσης των γραμμών διανομής, η προστασία των γραμμών διανομής με προστατευτικό αγωγό καθώς και η προστασία των γραμμών με αλεξικέραυνα. Στο πέμπτο κεφάλαιο της εργασίας, θα αναπτυχθεί η καταγραφή σφαλμάτων και βλαβών λόγω πτώσεως κεραυνών στο δίκτυο Μέσης Τάσης, σε μετασχηματιστές καθώς και στις γραμμές διανομής Μ.Τ. τα τελευταία 6 χρόνια τουλάχιστον (2007-2012) στο νησί της Ρόδου. Θα υπολογισθεί αναλυτικά ο θεωρητικός αριθμός σφαλμάτων σύμφωνα με την οδηγία της IEEE και έπειτα θα συγκριθούν με τα πραγματικά σφάλματα που έχουμε προμηθευτεί από τη ΔΕΗ της Ρόδου με σκοπό την εξαγωγή των συμπερασμάτων μας. / This thesis studies the behavior of Medium Voltage (Distribution) lines, after direct or indirect lightning strokes. Lightning is a natural phenomenon with dangerous impacts for the safety of humans, buildings and electricity premises. The electricity network lines (either High, Medium or Low Voltage) are prone to lightning strikes. When a lightning directly strikes a line or its nearby ground, then faults occur at the power network in the form of risky overvoltage. Such overvoltage in many cases may exceed the shock impulse of the network's insulation resistance. In the event no safety arrangements are in place, this could lead to the gap breakdown, causing irreparable damage to our equipment. The study of the behavior of air distribution lines encompasses several approaches. Some concern the basic parameters, such as the ground flash density (GFD) and the number of direct strikes on the line. In order to reach safe data, we refer to the corresponding meteorological tables-maps (e.g. Lightning maps). The first section of the paper presents the natural phenomenon of the lightning and its main features. The types of lightning are reviewed and its simulation under laboratory conditions through shock impulse for the testing of the insulation resistance. The second section contains the presentation of the form of electric power systems, with special emphasis on the distribution system. It is a presentation of the distribution system structure, the individual parts and devices as well as their features. Data and statistics of the Greek distribution system are presented at the end of the section. The third section is a brief presentation of the faults and overvoltage occurring at the distribution system as well as of the protection measures we use in order to ensure the uninterrupted operation and the integrity of our system. The fourth section is a reference to the directive of the Institute of Electrical and Electronic Engineers (IEEE) on the behaviour of air power distribution lines against lightning. The purpose is to present alternative solutions for the decrease of short-circuit occurrences caused by lightning on overhead lines. More specifically, the behaviour of the overhead distribution lines is determined in the event of lightning strike (lightning strikes and short-circuits arising from the induced voltage), the level of insulation of the distribution lines, the protection of the distribution lines by employing a protective tube, as well as the protection of the lines using lightning rods. The fifth chapter of the paper is an elaboration of the faults recorded and the damages caused due to lightning strikes on the Medium Voltage network, on transformers as well as on M.V. distribution lines over the past 6 years at least (2007-2012) on Rhodes Island. The theoretical number of faults will be calculated in detail, based on the IEEE directive and then these faults will be compared to the real faults provided by Rhodes' DEI [Greek Public Power Corporation], in order to reach our conclusions.

Κεραυνοί

Ρόδος

Σφάλματα

Γραμμές μέσης τάσης

Κεραυνικά πλήγματα

Αστραπές

621.319 21

Lightings

Rhodes

Faults

Medium voltage lines

Power distribution

Lightning strokes

Integrated planning of modern distribution networks incorporating UK utility practices

Mansor, Nurulafiqah Nadzirah

January 2018

Distribution system plays a significant role in the overall electrical power system due to its impact on electricity costs, reliability as well as security of supplied energy. Optimal development planning of modern distribution system is mainly required to satisfy continuous change in customer demands and generations in a cost-effective manner, utilizing the available smart solutions. All these aspects need to be addressed in modern distribution planning methodology that can be applied today in real-life. Review has shown that there are no distributions planning models that adequately model security of supply of radially operated networks. Moreover, the optimal development planning models still do not consider multiple operating regimes, which has become a necessity due to connection of low carbon technologies. Numerous techniques published on this subject tend to ignore the regulations and planning standards that must be complied during system development, resulting in methodology that is not in-tuned with business practices. Furthermore, a comprehensive model that integrates all major components of today’s real-life distribution planning is still lacking, even though many of them have been addressed individually. In this thesis, integrated planning methodology for development of distribution system is proposed, incorporating utility practices in the UK. The overall methodology built on two independent stages, investment stage and operation stage. The operation stage is further cast into two sub-stages, quality of supply planning and minimization of operation costs planning. The overall planning methodology incorporates the novel probabilistic decision tree concept for distribution system planning to consider probable network uncertainties. The first model which is the investment stage determines the new construction and reinforcement of circuits and switchgear, along with circuit decommissioning. Multiple operating regimes due to fluctuation in generation and load profiles are considered, in addition to explicit modelling of N-1 security constraint according to P2/6 planning standards. The quality of supply planning determines the allocation of switchgear and its automation to maximise the reliability benefits from the regulatory incentive regime. Finally, the operation model determines the optimal network configuration that minimises the total operation costs of distribution system. The final outputs are list of cables and switchgear for construction, reinforcement, and decommission, benefits harvested due to quality of supply investments on switchgear, optimal network running arrangement, etc. These studies have proven to be important in formulating effective strategies for development of distribution system, in compliance to the planning standards and resulted in higher network operation capabilities.

Επίδραση κατανεμημένων παραγωγών στη λειτουργία συστήματος ηλεκτρικής ενέργειας

Παπανικολάου, Κωνσταντίνα

03 April 2015

Στην παρούσα διπλωματική εργασία πραγματοποιείται μελέτη της επίδρασης ενός συστήματος διασύνδεσης ανεμογεννήτριας με το δίκτυο μέσης τάσης, όσον αφορά την έγχυση αρμονικών από την ανεμογεννήτρια προς το δίκτυο. Η μελέτη περιλαμβάνει τη μοντελοποίηση κάθε τμήματος ενός δικτύου μέσης τάσης με πραγματικά στοιχεία που πάρθηκαν από τη ΔΕΗ. Επιπλέον, μοντελοποιείται μια ανεμογεννήτρια τύπου σύγχρονης μόνιμων μαγνητών, καθώς και όλοι οι ηλεκτρονικοί μετατροπείς ισχύος που απαιτούνται για τη διασύνδεση αυτής με το δίκτυο μέσης τάσης. Όλα τα επιμέρους μοντέλα διασυνδέονται μεταξύ τους ώστε να αποτελέσουν το συνολικό μοντέλο που περιλαμβάνει το δίκτυο μέσης τάσης με τις γραμμές μεταφοράς, τους μετασχηματιστές, τα φορτία και τους πυκνωτές αντιστάθμισης που διαθέτει και την ανεμογεννήτρια μαζί με τους μετατροπείς συνδεδεμένη σε ένα ζυγό του δικτύου. Από το μοντέλο αυτό εξάγεται το αρμονικό περιεχόμενο τόσο στο ζυγό της ανεμογεννήτριας όσο και σε διπλανούς ζυγούς και συγκρίνεται κάθε φορά με το πρότυπο IEC 61000-3-6 που θέτει τα όρια για την έγχυση αρμονικών στο δίκτυο μέσης τάσης. Αρχικά, γίνεται μια αναφορά στα πλεονεκτήματα της αιολικής ενέργειας έναντι των άλλων συμβατικών μορφών ενέργειας. Επιπλέον, αναφέρονται τα προβλήματα που δημιουργούνται από την παρουσία ανώτερων αρμονικών στο δίκτυο. Έπειτα, πραγματοποιείται θεωρητική ανάλυση κάθε τμήματος του δικτύου μέσης τάσης. Για κάθε τμήμα δημιουργείται, επίσης, ένα μοντέλο στο Matlab/Simulink που βασίζεται σε στοιχεία από τη ΔΕΗ και εξισώσεις που αφορούν το εκάστοτε τμήμα. Στη συνέχεια, αναλύεται και μοντελοποιείται στο Matlab/Simulink και κάθε τμήμα του συστήματος διασύνδεσης της ανεμογεννήτριας με το δίκτυο μέσης τάσης που περιλαμβάνει την ανεμογεννήτρια τύπου σύγχρονης μόνιμων μαγνητών, ανορθωτική διάταξη, μετατροπέα συνεχούς τάσης σε συνεχή, τριφασικό αντιστροφέα, φίλτρο και μετασχηματιστή. Για κάθε μετατροπέα αναλύεται και μοντελοποιείται και έλεγχος κλειστού βρόχου. Τέλος, τα επιμέρους μοντέλα συγκροτούνται σε ένα συνολικό μοντέλο. Μεταβάλλοντας το συντελεστή φόρτισης των μετασχηματιστών του δικτύου, το συντελεστή ισχύος και το πλήθος των ανεμογεννητριών που συνδέονται στον ίδιο ζυγό, εξάγεται το αρμονικό περιεχόμενο για διάφορους ζυγούς και ελέγχεται αν αυτό συμφωνεί με το πρότυπο IEC 61000-3-6. Επιπλέον, εξετάζεται το αρμονικό περιεχόμενο της τάσης, όταν ο ζυγός διασύνδεσης αλλάζει θέση μέσα στο υπό μελέτη δίκτυο, καθώς και όταν αλλάζει η ταχύτητα του ανέμου. / In the present diploma thesis a study of the effect of a wind turbine system interconnection with medium voltage grid is conducted, in terms of harmonic injection of the turbine to the grid. The study includes the modeling of each part of a medium voltage grid with actual data taken from the Public Power Corporation of Greece. Furthermore, a synchronous wind turbine with permanent magnets is modeled along with all the electronic power converters that are required for the interconnection with the medium voltage grid. All the individual models are connected together to form the overall model, including the medium voltage transmission lines, transformers, loads and their compensation capacitors, along with the wind turbine and the power converters. The wind turbine is connected in a bus of the medium voltage grid. Then, the harmonic content in both the bus of the wind turbine and in other buses of the grid is extracted and compared with the standard IEC 61000-3-6 that sets the limits for harmonic injection in medium voltage grid. Initially, the advantages of use of wind energy are mentioned compared to other conventional forms of energy. Furthermore, the problems caused by the presence of harmonics in the grid are discussed. A theoretical analysis of each section of the medium voltage grid is conducted. For each section, a model in Matlab / Simulink is also created, based on data from the Public Power Corporation of Greece and on equations related to each section. Then, every part of the system connecting the wind turbine to the medium voltage grid is analyzed and modeled in Matlab/Simulink. This system consists of a synchronous wind turbine with permanent magnets, DC-to-DC converter, three-phase inverter, filter and transformer. A closed loop control for each converter is also analyzed and modeled. Finally, the aforementioned models are built up into one single model. By varying the load factor of the grid transformers, the power factor and the number of wind turbines connected to the same bus, the harmonic content of various buses is extracted and checked if it complies with the standard IEC 61000-3-6. Moreover, the harmonic content of the voltage is calculated, when the system of wind turbine changes position in the present medium voltage grid, as well as when the wind speed is changed.

Ανεμογεννήτρια

Δίκτυο μέσης τάσης

Αρμονικό περιεχόμενο

621.313

Wind turbine

Medium voltage grid

Power converters

Total harmonic distortion

Matlab/Simulink

Kartläggning av begränsande faktorer vid fellokalisering med pulsekometod på mellanspänningskablar / Mapping of the limiting factors in fault localization with Time Domain Reflectometry on medium voltage cables

Andersson, Tommy, Lindell, Erik

January 2014

I samband med att mellanspänningsnätet kablifieras ökar också kraven vad gäller fellokalisering. För att hålla avbrottstiderna i nätet korta är effektiv felsökning erforderlig. Detta arbete syftar till att kartlägga och redogöra för begränsande faktorer som finns vid fellokalisering med fokus på pulsekometoden. Uppdraget utförs tillsammans med Vattenfall Eldistribution AB. Det har uppdagats problem gällande fellokalisering på mellanspänningskablar med pulsekometoden. Ett flertal faktorer bidrar till denna problematik. Resultatet från studien visar att kabelkonstruktionen är en betydande del i det som begränsar pulsekometodens användningsområden och funktionalitet. Rapporten redogör för grundläggande information kring konstruktion och typer av mellanspänningskablar. Kartläggningen uppvisar hur vattenträd påverkar en kabel negativt. Allmänt redogörs för vad som orsakar vattenträd samt vilka avhjälpande åtgärder som vidtas; trippelextrudering samt mantel- och isolationsprovning. Vidare beskrivs olika feltyper, kabeltyper, kabelgenerationer samt instrument- och metodtyper som alla är påverkande faktorer vid fellokalisering. Dokumentering är i högsta grad väsentligt för en lyckad felsökningsprocedur, vilket klarläggs i rapporten. Utöver dokumentation redogörs för hur kabelns kondition kan påverka felsökningsresultatet. Ett antal mätmetoder och mätinstrument finns till förfogande vid felsökning och provning. Alla har sina egna för- respektive nackdelar. De har även tillhörande användningsområden. Pulsekometerns grundfunktion studeras och förklaras. De övriga mätmetoderna, som används vid fellokalisering och provning, redogörs för endast generellt / As the medium voltage network cables in Sweden is buried down in the earth, the demand of fault localization expertise increases. To keep downtimes in the network short, the importance of effective fault localization is necessary. This work is aimed to map and visualize limiting factors within fault localization with focus on the TDR - Time Domain Reflectometry. This work is a collaboration with Vattenfall Eldistribution AB. Problems with fault localization on medium voltage cables with the TDR have been detected. A multiple factors are contributing to this problem. The results of this study show that the cable construction is a significant part in which extent the TDR can be used. The report are also accounting for basic information about construction and types. The mapping also illustrates water treeing and how it affects cables in a negative way. Visualization of what causes water treeing and several actions such as triple extrusion, jacket testing and insulation testing is included in the essay. Further information about fault types, cable types, cable generations, instrument types and method types is given. All of them are affecting factors within the area of fault localization. Documentation is highly important for a successful fault localization procedure, which is clarified in the report. Besides documentation the cable condition and the influence on it affecting the result of fault localization is stated. A number of measuring methods and instruments are available to use when fault localization and testing are occurring. Every instrument has their own advantages and disadvantages. They also have their own respective area of usage. The basic principle of TDR is studied and explained accordingly. The other measuring methods, which are used in fault localization and testing, are shown more generally

Electric Engineering

Fault Localization

Power Cables

TDR

Measuring Methods

Medium Voltage Network

Elkraft

mellanspänningsnät

fellokalisering

kablifiering

pulsekometoden

vattenträd

kraftkabel

skärm

dokumentering