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Bushing diagnosis using artificial intelligence and dissolved gas analysisDhlamini, Sizwe Magiya 20 June 2008 (has links)
This dissertation is a study of artificial intelligence for diagnosing the condition of
high voltage bushings. The techniques include neural networks, genetic algorithms,
fuzzy set theory, particle swarm optimisation, multi-classifier systems, factor analysis,
principal component analysis, multidimensional scaling, data-fusion techniques,
automatic relevance determination and autoencoders. The classification is done using
Dissolved Gas Analysis (DGA) data based on field experience together with
criteria from IEEEc57.104 and IEC60599. A review of current literature showed
that common methods for the diagnosis of bushings are: partial discharge, DGA,
tan- (dielectric dissipation factor), water content in oil, dielectric strength of oil,
acidity level (neutralisation value), visual analysis of sludge in suspension, colour of
the oil, furanic content, degree of polymerisation (DP), strength of the insulating
paper, interfacial tension or oxygen content tests. All the methods have limitations
in terms of time and accuracy in decision making. The fact that making decisions
using each of these methods individually is highly subjective, also the huge size of
the data base of historical data, as well as the loss of skills due to retirement of
experienced technical staff, highlights the need for an automated diagnosis tool that
integrates information from the many sensors and recalls the historical decisions and
learns from new information. Three classifiers that are compared in this analysis are
radial basis functions (RBF), multiple layer perceptrons (MLP) and support vector
machines (SVM). In this work 60699 bushings were classified based on ten criteria.
Classification was done based on a majority vote. The work proposes the application
of neural networks with particle swarm optimisation (PSO) and genetic algorithms
(GA) to compensate for missing data in classifying high voltage bushings. The work
also proposes the application of fuzzy set theory (FST) to diagnose the condition of
high voltage bushings. The relevance and redundancy detection methods were able
to prune the redundant measured variables and accurately diagnose the condition
of the bushing with fewer variables. Experimental results from bushings that were
evaluated in the field verified the simulations. The results of this work can help to
develop real-time monitoring and decision making tools that combine information
from chemical, electrical and mechanical measurements taken from bushings.
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The Effect of HV Impulses on Partial Discharge Activity and on the Dielectric Response in Oil-impregnated Paper InsulationKiiza, Respicius Clemence January 2014 (has links)
This work investigates how HV impulses affect the behavior of partial discharge (PD) activity and the low voltage dielectric response of oil-impregnated paper insulation. It also investigates how the change in the PD activity is related to the degradation level of oil-impregnated paper insulation. In order to accomplish these objectives, the ageing were done under three different electrical stress conditions, i.e. HV impulses following an early stage 50 Hz AC PD activity, a prolonged PD activity at a 50 Hz AC stress alone, and a combination of HV impulses and a prolonged PD activity at a 50 Hz AC stress. In order to predict the level of deterioration caused by each ageing stress condition, the dielectric spectroscopy (DS) measurements in a frequency range of 1.0 mHz to 1.0 kHz were performed before and after subjecting a test object to each of the ageing stress conditions. The investigations were mainly done on the test samples consisting of a cavity deliberately introduced between the layers of oil-impregnated paper. Additionally, the investigation about the effect of HV impulses alone on the DS results was done on aged oil-impregnated paper transformer bushing. The PD experimental results presented in this thesis indicate that HV impulses below the impulse breakdown stress following an early stage AC PD activity will neither cause a significant change in phase resolved partial discharge (PRPD) patterns nor damage oil-impregnated paper insulation to a level that can be noticed with visual observations. On the other hand, a prolonged PD activity at a 50 Hz AC stress can cause the change in PRPD patterns by decreasing the total PD charge and the number of PD pulses, but cannot quickly damage the oil-impregnated paper insulation as it would do when it is combined with HV impulses. In addition to that, the results show that the combination of both, HV impulses and a prolonged PD activity at a 50 Hz AC stress can cause a high drop in the PD parameters (total PD charge and number of PD pulses). The DS results show that HV impulses below the impulse breakdown stress following an early stage 50 Hz AC PD activity will not cause a significant increase in the real part of the complex capacitance and in the dissipation factor as they will do when they are combined with a prolonged PD activity at a 50 Hz AC stress. Further, the dielectric spectroscopy results obtained every three hours during the ageing of oil-impregnated paper insulation by a prolonged PD activity at an AC stress show that the dissipation factor will increase, but the PD parameters (total PD charge and the repetition rate) will decrease with time of PD application. For a case of the aged oil-impregnated paper transformer bushing, HV impulses of amplitudes up to 200 kV did not result in the change in the dissipation factor curve before removing insulating oil from the bushing. However, after removing about 2.5 liters of insulating oil from the bushing, HV impulses resulted in the change in the dissipation factor curve. The magnitudes of the dissipation factor curves appeared to be much higher in the middle frequencies region, i.e. the frequencies between 10 mHz and 100 Hz. After refilling the bushing with the same insulating oil, the loss peak shifted towards the higher frequencies. To understand how the ageing by-products initiated by PDs in the small cavity can modify the geometry of oil-impregnated paper insulation; the model of oil-impregnated paper insulation, comprising of a small cavity, was implemented in Finite Element Method (FEM) software (COMSOL Multiphysics 4.2a). The comparison between the simulation and experimental results show that PD by-products will result in two zones, i.e. aged and unaged zones, and the aged zone will grow with time of PD application; thereby increasing the dissipation factor. On the other hand, in order to interpret the change in the dissipation factors for the dielectrics in aged oil-impregnated paper transformer bushing after had been exposed to HV impulses, a model of a part of the condenser body (oil-paper insulation) was also implemented in the FEM software (COMSOL Multiphysics 4.2a). To model a condition of low insulating oil level in the bushing, a part of oil subdomains was replaced with the air dielectric properties. A comparison between the simulation and experimental dissipation factor curves indicate that HV impulses will produce the by-products (ions), which will increase the conductivity of air when the bushing has low insulating oil level. On refilling the bushing with the same insulating oil, the insulating oil will take these ions and the reactions between the aged insulating oil by-products (such as acids) and the ions, may produce more ions, thereby increasing further the conductivity of the insulating oil. / <p>QC 20140303</p>
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Seleção de fungos filamentosos de solos da Amazônia para controle biológico de larvas e adultos de Aedes aegypti L, vetor dos vírus da dengue, chikungunya e zikaPontes, Grafe Oliveira, 92993213748 02 May 2018 (has links)
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Previous issue date: 2018-05-02 / FAPEAM - Fundação de Amparo à Pesquisa do Estado do Amazonas / The use of chemical insecticides becomes important in Aedes aegypti control programs. Over the years, epidemiological studies have demonstrated the inefficiency of synthetic insecticides due to the resistance acquired with the use in activities related to vector control in tropical diseases, especially dengue. For a better effectiveness of vector control programs, the search for new alternatives is necessary. The interest in entomopathogenic fungi for biological control is in great growth. However, the work on controlling the different stages of life of A. aegypti and the transmission of mycoses between individuals and their offspring are still discrete. In order to contribute with new compounds and integrated control of dengue, the present project aims to evaluate the entomopathogenic activity of fungi isolated from Amazonian soil in larvae and adults of A. aegypti, and their residual effects on the life cycle considering the number of eggs and larvae and adults. The proposed methodology for this work is the use of conidia of fungal isolates previously selected by genera that have relevance in biological control or that demonstrate positive results when used in probe / sorting insects, Tenebrio molitor. For the application of the formulations conidia were used in aqueous suspensions for treatment in larvae, and for adults was used aqueous suspensions impregnated in filter paper placed in Kit of the World Health Organization used to evaluate the susceptibility of chemical insecticide. The present work proposes a practical methodology for sexing and separating adults through the selection of pupae, in order to evaluate the degree of infestation and the entomopathogenic effect on larvae and adults of A. aegypti. avoiding the premature death of the insect by the use of Castro's catcher at the time of adult withdrawal from the colony. The results obtained evidenced the potential of four fungal isolates IPC 2.1 and IPS 3.1 isolated from Amazonian soil, and two other isolates from other insects and from soil samples IBCB 66 and IBCB 425, widely used to control insects in agriculture, and evaluated for the control of larvae and adults of the mosquito vector dengue. The results between the two methodologies showed the best applicability for the fungal isolates and their use in the control of A. aegypti, responsible for a great social impact on the public health of the Amazon due to the transmission of several arboviruses. / O uso de inseticidas químicos tornou importante nos programas de controle do Aedes aegypti. Com o passar dos anos, os estudos epidemiológicos demonstraram a ineficiência dos inseticidas sintéticos devido à resistência adquirida com a utilização nas atividades relacionadas ao controle de vetores em doenças tropicais, especialmente dengue. Para uma melhor eficácia dos programas de controle de vetores, há necessidade da busca de novas alternativas. O interesse em fungos entomopatogênicos para controle biológico encontra-se em amplo crescimento. Entretanto, ainda são discretos os trabalhos no controle dos diferentes estágios de vida do A. aegypti, e a transmissão de micoses entre seus indivíduos e sua prole. Com o intuito de contribuir com novos compostos e no controle integrado da dengue, Febre Chikungunya e Zika vírus. O presente projeto tem como objetivo avaliar a atividade entomopatogênica de fungos isolados de solo da Amazônia em larvas, adultos de A. aegypti, e seus efeitos residual sobre o ciclo de vida considerando o número de ovos e larvas e adultos. A metodologia proposta para esse trabalho visa à utilização de conídios dos isolados fúngicos previamente selecionados por gêneros que tenham relevância no controle biológico ou que demonstrem resultados positivos quando utilizados em insetos sonda/triagem, Tenebrio molitor. Para a aplicação das formulações foram utilizados conídios em suspensões aquosas para tratamento em larvas, e para adultos foi utilizado suspensões aquosas impregnados em papel filtro colocados em Kit da Organização Mundial de Saúde utilizado para avaliação de susceptibilidade de inseticida químico. Os bioensaios foram realizados em condições de laboratório, avaliando-se o grau de infestação e o efeito entomopatogênico sobre as larvas e adultos de A. aegypti, O presente trabalho propõe uma metodologia prática para sexagem e separação de adultos por meio de seleção de pupas, evitando a morte prematura do inseto pelo uso de capturador de Castro no momento de retirada de adultos da colônia. Os resultados obtidos evidenciaram o potencial de quatro isolados fúngicos, IPC 2.1 e IPS 3.1 isolados de solo da Amazônia, e outros dois isolados de outros insetos e de amostras de solo, IBCB 66 e IBCB 425, amplamente utilizados para controle de insetos na agricultura, e avaliados para combate de larvas e adultos do mosquito vetor da dengue, Febre Chikungunya e Zika vírus. Os resultados entre as duas metodologias demonstraram a melhor aplicabilidade para os isolados fúngicos e sua utilização no controle do A. aegypti, responsáveis por grande impacto social na saúde pública da Amazônia devido a transmissão de diversas arboviroses.
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Thermal and Electrical Degradation of Resin Impregnated Paper Insulation for High Voltage Transformer BushingsJyothi, N S January 2014 (has links) (PDF)
The overall reliability of a power transformer depends to a great extent on the sound operation of the bushings thereof. In view of its overwhelming advantages, resin impregnated paper (RIP) is acquiring prominence over conventional oil impregnated paper (OIP) in transformer bushings. The main advantages of RIP bushings are low dielectric loss and capability of positioning them at any desired angle over the transformer. The RIP structure, being an all-solid system, is completely free from oil phase.
The temperature rise in RIP bushings under normal operating conditions is seen to be a difficult parameter to control in view of the limited options for effective cooling. The degradation of dry-type insulation such as RIP is often due to thermal and electrical stresses. The long time performance thereof, depends strongly, on the maximum operating temperature. In order to be able to predict the regional temperature, it is necessary to consider the thermal and electrical parameters of insulation in question; and to identify and solve the governing equations under the relevant boundary conditions.
Electrical failure of insulation is known to be an extremal random process wherein nominally identical specimens of equipment insulation, at constant stress fails at inordinately different times. In order to be able to estimate the life of power equipment like transformer bushing, it is necessary to run long duration ageing experiments under accelerated stresses, to acquire and analyze insulation specific failure data. The present work is an attempt to provide reliability and life estimation of High Voltage RIP bushing insulation. The literature survey carried out in this view indicate that investigation on thermal and electric field distribution and the models for failure under combined stress and analysis of the data so as to be able to estimate the possible life of RIP bushing is scanty. Having these aspects in focus, the scope of the present work is defined as:
(i) Mapping of the temperature and electric field distribution in the body of 400kV RIP bushing
(ii) Deduction of parameters of the probabilistic models for the failure under electrical and thermal ageing
(iii) Estimation of life based on diagnostic testing using PD
With this in view, the temperature distribution in the body of a 400kV RIP bushing is studied considering the heat generation both in central conductor and that in the insulation. Presence of multiple materials with non-confirming interfaces makes analytical solution rather difficult and hence numerical approach is adopted. In the present work, vertex-centered Finite Volume Method (FVM) is employed for both thermal and electrical analysis. The electric stress distribution is accurately evaluated considering both the non-zero conductivity of the RIP material and the presence of capacitive grading foils. These analysis has clearly shown that Stress grading foils uniforms the stress across the major portion of the bushing insulation
Enhancement of the electric conductivity by the temperature is not found to be affective in changing the electric field distribution
The temperature distribution is shown to have a maxima near the flange due to the influence of top oil temperature of the transformer
Heat generated in the dielectric due to the prevailing electric stress is shown to be insignificant. This ruled out the possibility of thermal runaway and hence the dielectric temperature is within the safe working limits for the bushing considered.
The deduction of physical models governing insulation failure depends on the nature of stress. In this work, the insulation failure at constant accelerated stress has been considered and the estimation of life is computed based on inverse power law coupled with Arrhenius law. A high degree of scatter is generic to the experimental data forming the ingredients to develop the models. In view of this, the concept of a random process is invoked. Probabilistic models for the failure of RIP bushing under synergy are adopted and an attempt is made to estimate the life. The well known Weibull distribution and probability plotting of life data is used in this endeavor. The maximum likelihood estimation is used to determine the scale and shape parameters of the Weibull distribution.
In the diagnosis of the extent of degradation of insulation due to PD, under long duration electric stress, a non-conventional voltage application method called the classical stepped stress method is adopted. In this technique, the voltage is applied in pre-determined steps over predetermined duration of time. The magnitude of voltage steps is carefully computed based on Miners law and the end-of-life is computed using inverse power law.
In summary, this thesis work has contributed to the thermal and electrical degradation of resin impregnated paper insulation for high voltage transformer bushing. The thermal and electrical field distributions computed in the body of bushing clearly shown that these stresses are well within the limit, thereby ruling out the possibility of a thermal runaway. Comparing the estimates of the most probable life of RIP, based on several methods appears to show that any of the method can be adopted. However, as matter of caution and safety, the lowest among them can be taken as a reasonable estimate.
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Moisture Aided Degradation of Oil Impregnated Paper Insulation in Power TransformersMandlik, Manoj K January 2014 (has links) (PDF)
Transformers are the most expensive and critical asset in any electrical power network. Their failure results in long interruption of power supply with consequent loss of reliability and revenue. Understanding and detection of the failure mechanism helps in avoiding catastrophic failures, unplanned outages and improving the power system reliability. Oil impregnated paper (OIP) and pressboards form the main soild insulation in a transformer. Life of the transformer is governed mostly by the life of OIP insulation. Until recently, it was thought that ageing of the OIP insulation in power transformer and its eventual failure, is mainly a function of temperature and electrical stresses. However, it has now been realized that the moisture causes rapid degradation of OIP and needs a special attention. Considering its practical relevance, this research program was formulated with goals: (i) to study the ageing of OIP insulation under temperature and moisture stresses, (ii) to seek correlation between diagnostic ageing indices and end-of-life (EOL) and (iii) to develop a life model for OIP considering moisture along with the thermal stress.
Observing that working with actual transformers or even the prototypes are rather inordinately expensive, experiments were conducted with paper strips immersed in oil in test tubes with paper to oil ratio kept same as that in power transformers. In order to cater for the statistical nature of the phenomena, adequate numbers of test specimens were employed (25 numbers for each experiment). Experiments were conducted for two years at temperatures 90°C, 110°C & 120°C and moisture 1%, 2% & 3%.
Following the literature, the degree of polymerization (DP) was chosen as the primary index for ageing. As measurement of DP is not only destructive, but also impractical on most of the working transformers, with an aim to develop suitable diagnostic indices for ageing, 2-furfural (2-FAL) and oxides of carbon (CO and CO2) were also measured. Empirical relation between ageing and amount of stresses and time have been deduced for the relevant range. Limiting value of these indices to prescribe the end-of-life, as well as, their correlation with DP have been worked out and reported.
In order to bring the role of moisture explicitly, based on earlier work on multi-stress ageing, a multiplicative power law supplementing the Arrhenius factor is envisaged. Accordingly, a phenomenological combined stress model involving the time to failure, temperature, and moisture content is deduced. Based on the experimental results, this model is statistically validated and the values of parameters appearing in the model is obtained. Thus the combined stress model enables one to estimate the life of OIP insulation at any temperature and moisture under synergy.
In summary, this work through experimental and analytical approach has contributed to the evaluation of the aging of OIP insulation used in power transformers under the combined action of moisture and temperature.
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Dielectric Response and Partial Discharge Diagnostics of Insulation Systems by Utilizing High Voltage ImpulsesNikjoo, Roya January 2016 (has links)
In this thesis, power system transients are considered as an opportunity for development of on-line diagnostics of power components and specifically the insulation systems of power transformers and bushings. A new technique for on-line dielectric response measurement of power transformer bushings is proposed which utilizes natural transients in the power system, such as lightning and switching surges, as stimuli. Laboratory investigations are done on implementation of the proposed technique. Measurement considerations, data acquisition and processing involved in achievement of reasonable accuracy in the Dielectric Response (DR) are presented. Capability of the technique in tracking of the degradation signatures such as moisture content in the insulation has been evaluated and it has shown a good level of accuracy by being compared to the Frequency Domain Spectroscopy (FDS). The proposed technique is tested on the service-aged 150 kV bushings and feasibility of the technique for monitoring of dielectric properties of power transformer bushings has been assessed; the results are promising for the technique to be used in the real application. Partial Discharges (PD) behavior under transients has been also studied for different materials in this project. PD behavior of different defects, at different insulation condition, responding to the overvoltage transients in form of superimposed impulses on ac voltages was investigated and it was perceived how their distinctive response and the interpretation of that, can be useful for their identification. Besides the conventional materials, surface ac PD properties of modified paper with silica and zinc oxide nanoparticles under the superimposed impulses have been assessed in this project. Proper type and optimum concentration level of nanoparticles in the paper are the factors that lead to the improvement of PD behavior in the modified paper under overvoltage transients. / <p>QC 20160525</p>
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Utveckling av väggenomföringar av typen RIP / Development of Wall Bushings of Type RIPKarlsson, Jens January 2015 (has links)
Examensarbetet har genomförts på ABB Components i Ludvika. ABB Components är en affärsenhet inom ABB-koncernen som tillverkar nyckelkomponenter till transformatorer, bland annat genomföringar som kan ses som en isolerande hylsa vars uppgift är att föra högspänd ström genom jordade plan. Examensarbetets syfte är att utföra en förstudie som sedan ska fungera som underlag för ABB Components utvecklingsarbete vad gäller genomföringar av typen RIP (Resin Impregnated Paper). Bakgrunden till förstudien är ökade miljökrav världen över vilket innebär en marknad där miljöfrågor får allt större inverkan. Följden av marknadens utveckling är att ABB Components har insett att de har ett glapp i produktportföljen vad gäller genomföringar av typen RIP. För att skapa det underlag som är nödvändigt för att nå målet med förstudien har metoder som intervjuer, observationer och sökningar i databaser tillämpats. Målet med förstudien har sedan uppnåtts genom att generera lösningskoncept i form av CAD-modeller. Utifrån lösningskoncepten har sedan en identifiering av begränsningar i tillverkningsprocesser varit möjlig. Identifiering av begränsningar i tillverkningsprocesser har sedan konstaterat att ABB Components har kunskapen och de resurser som krävs för att tillfredsställa marknadens behov vad gäller genomföringar av typen RIP. / This thesis has been carried out at ABB Components in Ludvika. ABB Components is a business unit within ABB Group, which manufactures key components for transformers, including bushings that can be seen as an insulating sleeve whose function is to bring high-voltage current through a grounded plane. The thesis aims to carry out a pilot study that will serve as basis for ABB Components development of bushings of type RIP (Resin Impregnated Paper). The background to the pilot study is increased environmental requirements worldwide, which means a market where environmental issues are increasingly impact. The consequence of market developments is that ABB Components have recognized that they have a gap in the product portfolio in terms of bushings of type RIP. To create the information that is necessary to achieve the aim of the pilot study, methods such as interviews, observations, and searches in databases has been applied. The aim of the pilot study has been achieved by generating solution concepts in the form of CAD models. Based on solution concepts, an identification of limitations in manufacturing processes has been possible. Identification of limitations in manufacturing processes has determined that ABB Components have the knowledge and resources necessary to satisfy the market's needs in terms of bushings of type RIP.
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Analysis of Resin Impregnated Non-woven : In collaboration with Hitachi EnergyAbdulkareem Najm Al-Saedi, Ahmed, Hedenfeldt, Anders, García, Andrea, Kron, Anna-Karin, Bergström, Cornelia, Källkvist, Lova January 2022 (has links)
High voltage bushings are the most critical components of power transformers. A common material used in bushings is resin impregnated paper (RIP). Hitachi Energy is investigating whether this can be replaced with a new material, resin impregnated non-woven (RIN). One of the main reasons is that non-woven is less prone to absorb moisture compared to paper. Thus, for design purposes the mechanical, thermal and absorption properties of RIN have been studied and compared to RIP. The mechanical properties were tested by tensile and bending tests at room temperature and 80 ℃, showing that RIN has a lower elastic modulus and tensile strength than RIP at both temperatures. However, it was demonstrated that RIN does not retain its elongation at break and elasticity properties at elevated temperatures. The bending test showed no significant differences in flexural properties for RIN between room and high temperature. The thermal properties were studied with the transient plane source method (TPS) showing that both RIN and RIP had a higher specific heat capacity than pure epoxy. The thermal conductivity of the materials will be measured and included later. Lastly, the water absorption test was performed in order to provide information about the suitability of the materials used in bushings. For this different methods were used; water immersion andwater vapor testing. The immersion test showed that non-woven is more water resistant than paper and that the composites only absorb a small amount of water. No useful information was achieved from the water vapor test due to limited testing time. The results demonstrate the promising potential of RIN in bushings.
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Mechanisms of Electrical Ageing of Oilimpregnated Paper due to Partial DischargesGhaffarian Niasar, Mohamad January 2015 (has links)
In this thesis, partial discharge (PD) phenomenon in oil-impregnated paper (OIP) is investigated under accelerated electrical stress. The thesis is mainly focused on the characteristic of PD activity and the influence it has on the insulation properties of OIP. PD source was created by introducing an air filled cavity embedded between layers of OIP. PD activity is investigated from the initiation up to final puncture breakdown of the OIP. The time-evolution of number, maximum magnitude and average magnitude of PD is investigated for cavities with different diameter and height. It was found that time to breakdown is shorter if the cavity diameter is larger and cavities with higher depth produce larger PDs. Comparison between PD activity in three cases, i.e. unaged OIP, thermally aged OIP and OIP samples with higher moisture content is performed. In general, it is found that for all cases the number and the maximum magnitude of PD follows a similar trend versus ageing time. During the very beginning of the experiment large discharges occur and they disappear after a short ageing time. Number and maximum magnitude of PD increase with time until reaching a peak value. Finally both parameters decrease with time and puncture breakdown occurs in the sample. Even though PD activity in thermally aged OIP is higher compared to the unaged OIP samples, the time to breakdown for new and thermally aged OIP samples is similar while it is shorter for OIP samples with higher moisture content. In this thesis, partial discharge (PD) phenomenon in oil-impregnated paper (OIP) is investigated under accelerated electrical stress. The thesis is mainly focused on the characteristic of PD activity and the influence it has on the insulation properties of OIP. PD source was created by introducing an air filled cavity embedded between layers of OIP. PD activity is investigated from the initiation up to final puncture breakdown of the OIP. The time-evolution of number, maximum magnitude and average magnitude of PD is investigated for cavities with different diameter and height. It was found that time to breakdown is shorter if the cavity diameter is larger and cavities with higher depth produce larger PDs. Comparison between PD activity in three cases, i.e. unaged OIP, thermally aged OIP and OIP samples with higher moisture content is performed. In general, it is found that for all cases the number and the maximum magnitude of PD follows a similar trend versus ageing time. During the very beginning of the experiment large discharges occur and they disappear after a short ageing time. Number and maximum magnitude of PD increase with time until reaching a peak value. Finally both parameters decrease with time and puncture breakdown occurs in the sample. Even though PD activity in thermally aged OIP is higher compared to the unaged OIP samples, the time to breakdown for new and thermally aged OIP samples is similar while it is shorter for OIP samples with higher moisture content. Breakdown strength of OIP samples is measured before and after ageing with PDs. It is found that the breakdown strength of OIP samples decreases by around 40% after the sample is exposed to accelerated electrical ageing. Furthermore a thermal model was developed to investigate the possible transition of breakdown mechanism from erosion to thermal breakdown in OIP dielectrics. It was found that PD activity can lower the thermal breakdown voltage of OIP up to four times. / <p>QC 20150206</p>
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Diagnostics of Oil-Impregnated Paper Insulation Systems by Utilizing Lightning and Switching TransientsNikjoo, Roya January 2014 (has links)
Development of the power gridtowards a more reliable and smarter system requires frequent on-line monitoring of the power components. Power transformers and their bushings are particularly important components in a power transmission system and their insulation degradation may lead to catastrophic failures. Time consuming and costly replacement of these components raise the importance of their frequent monitoring. A fault in a power transformer bushing can also involve in the failure of the transformer. Therefore, on-line diagnostics of power transformers and their bushings is of great interest. Several methods exist for diagnostics of these components. However, some of them can only be done off-line in maintenance periods, and the existing on-line methods generally provide less information, especially on the internal solid insulation parts. In this project, a new technique for on-line diagnostics of the power transformer and the bushing insulation is proposed. In this technique, natural transients happening in the power system such as lightning and switching surges can be used as stimuli for on-line dielectric response measurements. This technique can provide information on insulation close to what Dielectric Spectroscopy offers in off-line measurements. The wide-ranging frequency content of power system transients is their advantage for being usedas stimuli when measuring the Dielectric Response. The response can have particular signatures due to different types of defects in the insulation varying with frequency. Oil-impregnated paper as a major insulation component in power transformer and its bushing has been investigated in this project. Moisture content and temperature, as two important degradation factors in this type of insulation, have been studied to evaluate the performance of the proposed technique in the diagnostics of the oil-impregnated paper. The results are verified with the dielectric response obtained through commercial instruments. The results show that the proposed technique has the ability to track the changes in dielectric response due to the moisture content and temperature. Measurements were done at both highvoltage (40kV) and low voltage (10V) levels, and the corresponding circuit models to achieve reasonable accuracy for the results are discussed. Moving on from the material samples, a further study was done on three service-aged 150 kV bushings to investigate the feasibility of the technique on the diagnostics of power transformer bushings. Their dielectric response measured by the transient stimuli showed good agreement with their response obtained by the commercial instruments. The effect of the transformer winding on the transient response of the bushing is a further aspect of the real conditions for on-line diagnostics. This has been investigated through the simulation of transient models for transformers and bushings, and possible solutions for distinguishing the responses are presented. The proposed new on-line diagnostics technique by utilizing natural transients can provide information about the insulation system in a certain range of frequency without interrupting the operation or requiring an external voltage source. However, the validity range of the results depends on the bandwidth of the applied transients and other measurement considerations. This approach can be valuable in frequent monitoring of dielectric properties of the power transformers and their bushings as a complement to the other available on-line techniques. / <p>QC 20140409</p>
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