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Modelling of cavity partial discharges at variable applied frequencyForssén, Cecilia January 2008 (has links)
The presence of partial discharges (PD) in high voltage components is generally a sign of defects and degradation in the electrical insulation. To diagnose the condition of high voltage insulation, PD measurements is commonly used. The Variable Frequency Phase Resolved PD Analysis (VF-PRPDA) technique measures PD at variable frequency of the applied voltage. With this technique, the frequency dependence of PD can be utilized to extract more information about the insulation defects than is possible from traditional PD measurements at a single applied frequency. In this thesis the PD process in a disc-shaped cavity is measured and modelled at variable frequency (0.01 - 100 Hz) of the applied voltage. The aim is to interpret the PD frequency dependence in terms of physical conditions at the cavity. The measurements show that the PD process in the cavity is frequency dependent. The PD phase and magnitude distributions, as well as the number of PDs per voltage cycle, change with the varying frequency. Moreover, the PD frequency dependence changes with the applied voltage amplitude, the size of the cavity and the location of the cavity (insulated or electrode bounded). A physical model is presented and used to dynamically simulate the sequence of PDs in the cavity at different applied frequencies. The simulations show that essential features in the measured PD patterns can be reproduced. The PD frequency dependence is interpreted as a variation in influence on the PD activity from the statistical time lag of PD and the charge transport in the cavity surface, at different applied frequencies. The simulation results also show that certain cavity parameters, like the cavity surface conductivity and the rate of electron emission from the cavity surface, change with the time between consecutive PDs, and accordingly with the applied frequency. This effect also contributes to the PD frequency dependence. / QC 20100722
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Partial Discharge Activity in Electrical Insulation for High Temperature Superconducting (HTS) CablesOkubo, H., Kojima, H., Endo, F., Sahara, K., Yamaguchi, R., Hayakawa, N. 06 1900 (has links)
No description available.
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Charge accumulation effects on time transition of partial discharge activity at GIS spacer defectsOkubo, Hitoshi, Endo, Fumihiro, Hayakawa, Naoki, Kojima, Hiroki, Nishizawa, Kanako, Mansour, Diaa-Eldin A 02 1900 (has links)
No description available.
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Partial discharge characteristics of inverter-fed motor coil samples under ac and surge voltage conditionsHayakawa, Naoki, Okubo, Hitoshi 01 1900 (has links)
No description available.
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Time Variation of Partial Discharge Activity Leading to Breakdown of Magnet Wire under Repetitive Surge Voltage ApplicationHayakawa, Naoki, Inano, Hiroshi, Nakamura, Yusuke, Okubo, Hitoshi 12 1900 (has links)
No description available.
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Surface charge accumulation and partial discharge activity for small gaps of electrode/epoxy interface in sf6 gasOkubo, Hitoshi, Mansour, Diaa-Eldin A., Kojima, Hiroki, Hayakawa, Naoki, Endo, Fumihiro 08 1900 (has links)
No description available.
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Partial Discharges and Associated Mechanisms for Micro Gap Delamination at Epoxy Spacer in GISOkubo, Hitoshi, Endo, Fumihiro, Hayakawa, Naoki, Kojima, Hiroki, Mansour, Diaa-Eldin A 06 1900 (has links)
No description available.
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A novel technique for partial discharge and breakdown investigation based on current pulse waveform analysisOkubo, Hitoshi, Hayakawa, Naoki 08 1900 (has links)
No description available.
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Thermal Degradation In Composite Insulation Due To Corona DischargesJanuary 2010 (has links)
abstract: Composite insulators on overhead lines are frequently subjected to corona discharges due to increased electric field intensities under various conditions. These discharges can cause localized heating on the surface and affect the hydrophobicity of the insulator. A study has been undertaken to quantify and evaluate the thermal degradation that composite insulation is subjected to from corona discharges. This has been conducted primarily at the power frequency (60 Hz) and at the low frequency range (37 kHz). Point to plane corona discharge experiments have been performed in the laboratory at both the frequencies and varying levels of thermal degradation has been observed. The amplitude and the frequency of current spikes have been recorded at different voltage levels. A temperature model based on the amplitude and the frequency of current data has been formulated to calculate the maximum temperature attained due to these discharges. Visual thermal degradation has been found to set in at a low frequency range while there is no visual degradation observed at power frequency even when exposed to discharges for relatively much longer periods of time. However, microscopic experiments have been conducted which revealed degradation on the surface at 60 Hz. It has also been found that temperatures in excess of 300 Celsius have been obtained at 37 kHz. This corroborates the thermo gravimetric analysis data that proves thermal degradation in silicone rubber samples at temperatures greater than 300 Celsius. Using the above model, the maximum temperature rise can be evaluated due to discharges occurring on high voltage insulation. This model has also been used to calculate the temperature rise on medium voltage distribution equipment such as composite bushings and stand-off plugs. The samples were subjected to standard partial discharge tests and the corresponding discharge magnitudes have been recorded. The samples passed the tests and the corresponding temperatures plotted have been found to be within thermal limits of the respective insulation used on the samples. The experimental results concur with the theoretical model. A knowledge of the maximum temperatures attained due to these discharges can help in design of insulation with better thermal properties. / Dissertation/Thesis / M.S. Electrical Engineering 2010
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Etude de l'origine des décharges partielles sur les substrats céramiques enrobés / Study of the origin of partial discharges on ceramic coated substratesVu, Thi Anh Tho 13 July 2011 (has links)
Ce travail concerne l'étude du phénomène de décharges partielles dans les matériaux isolants utilisés en électronique de puissance. En utilisant des méthodes de détection électrique et optique, le mécanisme de décharge partielle sur des substrats d'AlN dans l'huile silicone a été étudié sur un grand nombre d'échantillons. La variation de la nature du substrat (AlN, Al2O3 et composite verre/époxy) et du matériau d'encapsulation (huile silicone, huile de colza, huile minérale de transformateur, liquide d'imprégnant du condensateur Jarylec et Ugilec) met en évidence l'origine des décharges partielles de l'ensemble substrat – encapsulant. Les décharges partielles sur les substrats céramiques frittés ne dépendent pas du passivant, et se produisent dans le volume du substrat. L'évolution temporelle de la lumière émise dans les liquides en configuration pointe – plan et sur le substrat dans différents liquides montre que l'émission de lumière est un phénomène très complexe influencé par de nombreux paramètres : électroluminescence du solide, de l'encapsulant, décharges partielles, absorption des matériaux. Le phénomène d'électroluminescence du liquide est activé par une illumination extérieure. Les mesures de spectroscopie diélectrique haute tension n'apportent pas d'information supplémentaire sur le phénomène de décharges partielles, car les pertes correspondantes sont très faibles. / This work concerns the study of partial discharge phenomena on insulating materials used in power electronics. Using electrical and optical detection methods, the mechanism of partial discharges on AlN substrates in silicon oil is studied with a large number of samples. Changing the nature of substrates (AlN, and Al2O3 composite glass/epoxy) and of encapsulating materials (silicone oil, rapeseed oil, mineral transformer oil, capacitor impregnating liquids Jarylec and Ugilec) provides a number of conclusions about the origin of partial discharges on embedded substrates. Partial discharges on sintered ceramic substrates do not depend on the encapsulating material nature, but on the nature of the substrates themselves. The temporal evolution of light emitted by the liquid in a point - plane configuration, and on embedded substrates shows that the light during emission is a very complex phenomenon influenced by many parameters: electroluminescence of the solid, of the encapsulating material, partial discharges, and light absorption of materials. The electroluminescence of the liquid is activated by external light. Measurements of high voltage dielectric spectroscopy are also performed, but no additional information on partial discharges is obtained since corresponding losses are very low.
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