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Problematika částečných výbojů v plynem izolovaných vodičích / The Partial Discharges Diagnostic in Gas-Insulated SwitchgearsFicek, Jan January 2017 (has links)
This work is focused on the measurement of partial discharges in gas insulated conductors manufactured by ABB. The theoretical part contains the definition of partial discharges, their analysis and detection methods. It also deals with the general description of gas-insulated substations and then with the concrete components manufactured at ABB in the Brno-Slatina production plant. The practical part describes the course of measurement, definition of the main problems and their explanation. The output from the practical part is a measurement library with given characteristics, which show the location and character of the problem in detecting partial discharge in a given encapsulated assembly.
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Non-intrusive condition monitoring of power cables within the industrial sector / Johannes Hendrik van JaarsveldtVan Jaarsveldt, Johannes Hendrik January 2015 (has links)
Condition monitoring (CM) of electrical equipment is an important field in electrical engineering and a
considerable amount of research is dedicated to this field. Power cables are one of the most important parts
of any electrical network and the variety of techniques available for CM of electrical cables is therefore no
surprise. Electrical cables are exposed to operational and environmental stressors which will cause
degradation of the insulation material. The degradation will continue to the point where the cable fails.
Blackouts caused by failing cables will have an effect on the safety, efficiency and production of an
electrical network. It is therefore important to constantly monitor the condition of electrical cables, in order
to prevent the premature failure of cables. The research presented in this dissertation sets out to investigate
CM techniques for power cables and to design and implement a basic cable CM technique based on the
principles of partial discharge (PD) measurements.
A comprehensive literature study introduces the fundamental concepts regarding the CM of power cables.
The basic construction of electrical cables, as well as the variety of different types is researched in order to
lay a foundation for the research that follow. CM techniques for electrical equipment are investigated, with
the emphasis on techniques used on cables. Conducted research led to the decision to focus on CM by
means of PD measurements. PD as a phenomenon is investigated to be able to better understand the origins
and effects of discharge activity. From there the focus shifts to the available techniques for monitoring the
condition of electrical cables by means of PD measurements. The research conducted in the literature study
chapter forms the basis from which the rest of the study is conducted.
Simulation models were used to study PD characteristics. The models are derived from engineering and
mathematical principles and are based on the well-known three-capacitor model of PD. The simulations
were performed in order to study the effects of discharge activity. The designed simulation models allows
for a variety of PD characteristics to be studied. The simulations were performed in the MATLAB®
Simulink® environment.
The research conducted in the dissertation was used to design an elementary CM technique which can be
used to detect the presence of PD within electrical cables. The designed CM technique was used for the
practical measurement of PD data. MATLAB® programs were designed in order to analyse the PD data in
both the time- and frequency-domain. The analysis of the measured data revealed PD characteristics of the
test specimen used for the measurements. The designed CM is used for the detection of PD activity within
electrical cables and in combination with other techniques, may be used for complete CM of electrical
cables. The experimental setup which was used to take practical PD measurements adds another dimension
to the work presented in this dissertation. / MIng (Electrical and Electronic Engineering), North-West University, Potchefstroom Campus, 2015
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Non-intrusive condition monitoring of power cables within the industrial sector / Johannes Hendrik van JaarsveldtVan Jaarsveldt, Johannes Hendrik January 2015 (has links)
Condition monitoring (CM) of electrical equipment is an important field in electrical engineering and a
considerable amount of research is dedicated to this field. Power cables are one of the most important parts
of any electrical network and the variety of techniques available for CM of electrical cables is therefore no
surprise. Electrical cables are exposed to operational and environmental stressors which will cause
degradation of the insulation material. The degradation will continue to the point where the cable fails.
Blackouts caused by failing cables will have an effect on the safety, efficiency and production of an
electrical network. It is therefore important to constantly monitor the condition of electrical cables, in order
to prevent the premature failure of cables. The research presented in this dissertation sets out to investigate
CM techniques for power cables and to design and implement a basic cable CM technique based on the
principles of partial discharge (PD) measurements.
A comprehensive literature study introduces the fundamental concepts regarding the CM of power cables.
The basic construction of electrical cables, as well as the variety of different types is researched in order to
lay a foundation for the research that follow. CM techniques for electrical equipment are investigated, with
the emphasis on techniques used on cables. Conducted research led to the decision to focus on CM by
means of PD measurements. PD as a phenomenon is investigated to be able to better understand the origins
and effects of discharge activity. From there the focus shifts to the available techniques for monitoring the
condition of electrical cables by means of PD measurements. The research conducted in the literature study
chapter forms the basis from which the rest of the study is conducted.
Simulation models were used to study PD characteristics. The models are derived from engineering and
mathematical principles and are based on the well-known three-capacitor model of PD. The simulations
were performed in order to study the effects of discharge activity. The designed simulation models allows
for a variety of PD characteristics to be studied. The simulations were performed in the MATLAB®
Simulink® environment.
The research conducted in the dissertation was used to design an elementary CM technique which can be
used to detect the presence of PD within electrical cables. The designed CM technique was used for the
practical measurement of PD data. MATLAB® programs were designed in order to analyse the PD data in
both the time- and frequency-domain. The analysis of the measured data revealed PD characteristics of the
test specimen used for the measurements. The designed CM is used for the detection of PD activity within
electrical cables and in combination with other techniques, may be used for complete CM of electrical
cables. The experimental setup which was used to take practical PD measurements adds another dimension
to the work presented in this dissertation. / MIng (Electrical and Electronic Engineering), North-West University, Potchefstroom Campus, 2015
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Partial discharge evaluation of a high voltage transformerKyere, Isaac Kwabena 02 1900 (has links)
M. Tech. (Power Engineering Department, Faculty of Engineering and Technology) -- Vaal University of Technology / This dissertation is devoted to the study of partial discharge evaluation of a high
voltage transformer. The 400 V/300 000 V (300 kV) high voltage transformer in the
high voltage laboratory was manufactured in 1967. Given the old age of the
transformer and the crucial importance of insulation systems, it is vital to assess the
condition of its insulation to ensure the effectiveness and the reliability of the
transformer as well as the safety of the personnel using it. In order to achieve that, it
is important to evaluate the partial discharge in the insulation system as this is the
main cause of destruction of insulation.
The phase-resolved partial discharge method was the main method used to perform
the partial discharge measurements in this research.
Partial discharge measurements were performed on a faulty 11 kV voltage
transformer. Defects were also created in samples of solid insulation at predetermined
locations with different shapes and sizes. The measurements taken on the
11 kV voltage transformer and samples of solid insulation formed a basis to prove
the validity of the assessment methods on the 300 kV transformer.
Using the method mentioned above, partial discharges were recorded with respect to
the phase of the applied voltage with the aid of a commercial instrument which
complies with IEC 60270, (ICM monitor - partial discharge detector from Power
Diagnostix Systems GmbH).
The observations from this study have furthered the understanding of partial
discharge processes. The patterns recorded were analysed in order to conclude about
the condition of the transformer. From the partial discharge pattern, the type and
location of partial discharges were concluded. The patterns obtained from the
transformer reveal that the device is healthy and can be operated up to 200 kV.
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On signal processing and electromagnetic modelling : applications in antennas and transmission linesLundbäck, Jonas January 2007 (has links)
This doctoral thesis is comprised of five parts. The first three parts concern signal processing and electromagnetic modelling of multiport antennas. The last two parts concern signal processing and transmission line theory applied to wave splitting on transmission lines. In Part I, the spherical vector wave expansion of the electromagnetic field is used to completely characterize a multiport antenna. A general framework for modelling an antenna configuration based on measurement data and numerical computation is obtained. The generic electromagnetic model for arbitrary multiport antennas or vector sensors is applied in direction of arrival (DOA) estimation. Next, in Part II using the generic electromagnetic model (from Part I), we obtain the Cramér–Rao bound (CRB) for DOA and polarization estimation using arbitrary multiport antennas. In the Gaussian case, the CRB is given in terms of the transmission matrix, the spherical vector harmonics and its spatial derivatives. Numerical examples using an ideal Tripole antenna array and a non-ideal Tetrahedron antenna array are included. In Part III, the theory of optimal experiments is applied to a cylindrical antenna near-field measurement setup. The D-optimal (determinant) formulation using the Fisher information matrix of the multipole coefficients in the spherical wave expansion of the electrical field result in the optimal measurement positions. The estimation of the multipole coefficients and corresponding electric field using the optimal measurement points is studied using numerical examples and singular value analysis. Further, Part IV describes a Digital Directional Coupler (DDC), a device for wave splitting on a transmission line. The DDC is a frequency domain digital wave splitter based on two independent wide-band measurements of the voltage and the current. A calibration of the digital processor is included to account for the particular transmission line and the sensors that are employed. Properties of the DDC are analyzed using the CRB and an experiment where wave splitting was conducted on a coaxial–cable is accounted for. Finally, in Part V the DDC has been designed and implemented for wave splitting on a medium voltage power cable in a power distribution station using low cost wide–band sensors. Partial discharge measurements are conducted on cross–linked polyethylene insulated power cables. The directional separation capabilities of the DDC are visualized and utilized to separate multiple reflections from partial discharges based on the direction of travel.
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Critical review of commissioning/routine tests with special interest in undetected defects in SF6, GIS/GITL using UHF methodCebekhulu, Jabulani 04 November 2009 (has links)
The widespread application of pressurized SF6 gas and its mixtures as
insulating medium in many electric power applications is the result of recent
advances in technologies. The likelihood of failure for a Gas Insulated
Substation or Transmission Line (GIS/GITL) is primarily due to the presence
of defects inside the equipment. Defects can be introduced into the GIS/GITL
system for various reasons. Partial discharge (PD) is a natural phenomenon
occurring in the GIS/GITL systems, which invariably contains defects. During
commissioning or routine tests PD measurements serve to identify the type
and status of a defect. Of particular interest for this research work will be the
critical review of PD measurement for different types of free conducting
particles in the gas using the UHF method due to its superiority among
others. The work highlights the integrity of the method as a tool for both
commissioning and routine tests and its alignment with the high voltage SF6
test standards is reviewed. 80/20 N2/SF6 mixture is used to reduce the surface
roughness effect in pure SF6, as well as for the reduction of economical and
environmental risks.
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Measurements of partial discharge in insulatorsJohansson, Elias, Olofsson, Didrik, Lind, Philip, Victorin, Erik January 2019 (has links)
Causes and effects of partial discharges (PD) inside electrical high-voltage insulation was studied prior to taking measurements with a PDS100 spectralanalyser during excursions to a number of substations in the Swedish electrical grid.This to develop a working-method and manual for workers to use periodically whileon site to be able to identify components on which maintenance is needed. Noprominent signs of PD was measured during the excursions although with materialfrom previous measurements showing PD, provided by the manufacturer of thePDS100, a manual to use in the field could be developed.
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Degradation of composite insulators at material interfacesBastidas Erazo, Pablo Daniel January 2018 (has links)
High-voltage (HV) outdoor composite insulators used in transmission lines are made of two polymers, comprising the core and housing, bonded together with metallic end-connections. The interface between these polymers is parallel to the electric field, which makes the insulators more prone to interfacial problems at these common points [1]. If interfacial ageing occurs, degradation and catastrophic breakdown can result [2]. Therefore, the design reliability of outdoor composite insulators depends on the high-strength bond between the core and the housing [3],[4]. Research findings by Kutil and Froshlic [5] indicate that delaminated areas, cavities and/or micro cracks in the medium are enough to initiate streamer discharges along the interface that are capable of degrading both insulating materials. The heat, UV radiation, and high-energy electrons produced from such discharge activity resulted in the growth of carbon paths along the interface, known as âtrackingâ, ultimately causing failure [6]. This investigation focuses on the development of tracking between silicone rubber and epoxy resin, with a view to replicating the tracking phenomena seen within composite insulators in service. A fine wire is placed between the dielectrics materials to enhance the local electric field magnitude and initiate discharge processes. The resulting partial discharge (PD) activity has been monitored. This Information has been used to understand the inception and propagation of the interfacial tracking. A strong relationship was found between maximum PD magnitude and track length. PD patterns and unique detailed images of the interfacial tracking development, allowed identification of the growth characteristics of interfacial channels and phases of tracking growth. Furthermore, a correlation in the mechanisms of interfacial degradation was found between the lab-fabricated samples and commercial composite rods. Finally, a growth model of interfacial ageing has been developed with the information from FEA models, PD patterns and the detailed images of tracking growth. The physical structure and chemical analysis of interfacial tracking is also disclosed to provide an insight into interfacial ageing mechanisms that occur in the composite insulators under electrical stress.
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Partial discharge inception characteristics of LN/sub 2//polypropylene laminated paper composite insulation system for high temperature superconducting cablesHayakawa, N., Kobayashi, T., Hazeyama, M., Takahashi, T., Yasuda, K., Okubo, H. 02 1900 (has links)
No description available.
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Partial Discharge Inception and Propagation Characteristics of Magnet Wire for Inverter-fed Motor under Surge Voltage ApplicationHayakawa, Naoki, Morikawa, Masato, Okubo, Hitoshi January 2007 (has links)
No description available.
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