Power
Reza Rostaminia; Mehdi Vakilian; Keyvan Firouzi
Abstract
Partial Discharge (PD) measurement is one of the best solutions for condition assessment of Gas Insulated Switchgears (GISs). For having Condition-based maintenance of GIS, online PD monitoring is of great importance. For this aim, Ultra High Frequency (UHF) PD sensors should be installed inside the ...
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Partial Discharge (PD) measurement is one of the best solutions for condition assessment of Gas Insulated Switchgears (GISs). For having Condition-based maintenance of GIS, online PD monitoring is of great importance. For this aim, Ultra High Frequency (UHF) PD sensors should be installed inside the GIS during the installation. However, in most installed GISs in industries, the internal UHF PD sensors are not installed. In this paper, a new method for online defect type recognition according to external UHF PD sensors and based on the time-frequency representation of PD signal is proposed. In this case, four artificial defect types named protrusion on the main conductor, protrusion on the enclosure, free moving metal particle, and metal particle on spacer are implanted inside the 132 kV L-Shaped structure of one phase in enclosure GIS. The signal energy at each level of the decomposed signal by Discrete Wavelet Transform (DWT) is applied for features of each defect type. The trends of signal energy variations at each frequency range of signal are applied for discriminating between each defect type. The Deep Feed Forward Network (DFFN) classifier is applied for PD pattern recognition. The results show the benefits and simplicity of the proposed method for PD signal classification, independent from the position of the PD sensor, especially in the case of online PD monitoring of GIS.
Power
Reza Rostaminia; Mehdi Vakilian; Keyvan Firuzi
Abstract
Partial Discharge (PD) measurement is one of the main methods for condition monitoring of Gas Insulated Switchgears (GIS). Internal Ultra High Frequency (UHF) sensors can be applied for capturing PD propagated electromagnetic signals within the GIS. PD sensor placement inside the GIS is one of the main ...
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Partial Discharge (PD) measurement is one of the main methods for condition monitoring of Gas Insulated Switchgears (GIS). Internal Ultra High Frequency (UHF) sensors can be applied for capturing PD propagated electromagnetic signals within the GIS. PD sensor placement inside the GIS is one of the main challenges for designing the online PD measuring system. For this aim, the impacts of different GIS components on the propagated PD electromagnetic wave should be studied. In this paper, different PD sensor position angles (with respect to PD sensor), are applied for investigating their sensitivity on the measuring PD electromagnetic wave. Two distinguishable parameters from the calculated PD electromagnetic waves, the first rated electric field and the signal’s power over the two frequency ranges (0.3-2 GHz and 0.3-3 GHz) are used for analyzing and quantifying the calculation results. The impacts of different enclosure diameters, different types of spacers, and various disconnector contact gap distances (under different voltage levels) on this wave propagation are studied. Additionally, the two standard GIS busbar profiles, named: L-shape and T-shape; are discussed in this paper. The results of this study show that the attenuation degree of the measured PD EM waves is strongly influenced by the busbar dimensions and its components configurations. The GIS busbar designer can employ these results to select the proper PD sensors and their installation locations.