Comparison of capacitive and inductive sensors designed for partial discharges measurements in electrical power apparatus

Kunicki, Michał

doi:10.1051/e3sconf/20171901035

Cited by 15 publications

(5 citation statements)

References 20 publications

(21 reference statements)

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“…The effectiveness and precision of this method was confirmed in many publications, e.g. [5][6][7][8][9][10]. Other equally effective, frequently used and constantly developed methods are chromatographic or spectrometric analysis of gases dissolved in oil (DGA) analysis, acoustic emission and ultra-high frequency (UHF) methods [11][12][13][14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 94%

Analysis of the spectrum of electromagnetic radiation generated by electrical discharges

Nagi

Kozioł

Wotzka

2019

IET Science, Measurement & Technology

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Section: Introductionmentioning

confidence: 94%

Analysis of the spectrum of electromagnetic radiation generated by electrical discharges

Nagi

Kozioł

Wotzka

2019

IET Science, Measurement & Technology

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“…It should be emphasized that for the HFCT sensors devoted to PD detection, the more important parameter than the f L is higher −3 dB cutoff frequency f H , since the discharges in oil-paper insulation emit high-frequency waves mainly in the range between approx. 2 and 20 MHz [98]. In this case, it is more favorable to apply a lower number of turns.…”

Section: High-frequency Current Transformermentioning

confidence: 99%

On-Line Partial Discharge Monitoring System for Power Transformers Based on the Simultaneous Detection of High Frequency, Ultra-High Frequency, and Acoustic Emission Signals

et al. 2020

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The article presents a novel on-line partial discharge (PD) monitoring system for power transformers, whose functioning is based on the simultaneous use of three unconventional methods of PD detection: high-frequency (HF), ultra-high frequency (UHF), and acoustic emission (AE). It is the first monitoring system equipped in an active dielectric window (ADW), which is a combined ultrasonic and electromagnetic PD sensor. The article discusses in detail the process of designing and building individual modules of hardware and software layers of the system, wherein the most attention was paid to the PD sensors, i.e., meandered planar inverted-F antenna (MPIFA), high-frequency current transformer (HFCT), and active dielectric window with ultrasonic transducer, which were optimized for detection of PDs occurring in oil-paper insulation. The prototype of the hybrid monitoring system was first checked on a 330 MVA large power transformer during the induced voltage test with partial discharge measurement (IVPD). Next, it was installed on a 31.5 MVA substation power transformer and integrated according to the standard IEC 61850 with SCADA (Supervisory Control and Data Acquisition) system registering voltage, active power, and oil temperature of the monitored unit. The obtained results showed high sensitivity of the manufactured PD sensors as well as the advantages of the simultaneous use of three techniques of PD detection and the possibility of discharge parameter correlation with other power transformer parameters.

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“…Furthermore, different attenuations of the signals are also related to those materials. For example, in case of oil-filled power transformers signals measured in galvanic parts using electrical method (capacitive or inductive sensors), are influenced by the inductivity of every turn of the winding coil and all stray capacities which works as a low pass filter, thus a measured upper-frequency limit is typically limited to approximately tens of MHz [33]. The propagation of the electromagnetic signals inside of the transformer tank is a radiated emission in the entire volume of the transformer, in oil and pressboard.…”

Section: Fundamentals Of Pdmentioning

confidence: 99%

Variability of the UHF Signals Generated by Partial Discharges in Mineral Oil

Kunicki

2019

Sensors

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The paper presents the results of the analysis on the variability of the ultra-high frequency (UHF) signals generated by partial discharges (PD) under the long-term AC voltage. Surface PD (SD) are generated by model PD source (PDS) immersed in brand new mineral oil. Three scenarios are compared and investigated, where different solid dielectrics are applied: pressboard paper (PBP), polytetrafluoroethylene (PTFE) and glass-ceramic (GLS). The PDS is powered continuously by the AC voltage with its relative level of 1.3 of the inception voltage (Ui) within 168 h. UHF signals generated by the continuously occurred SD within 168 h are registered. Various indicators describing the variability of the UHF signals emitted by SD are assigned and analyzed in order to discover if there are any relevant trends presented. Furthermore, some long-term characteristics of the UHF signals emitted by the applied PDS are also announced. As a result, some relevant trends are discovered and related to the properties of the applied dielectric materials, thus the variability of the UHF signals emitted by SD is confirmed. The highest variability of the UHF signals is associated with PBP and the first 48 h after PD inception. Moreover achieved results may be potentially applied for modeling of the PD variability in time, which may be useful for works that concern the development of the UHF method.

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Comparison of capacitive and inductive sensors designed for partial discharges measurements in electrical power apparatus

Cited by 15 publications

References 20 publications

Analysis of the spectrum of electromagnetic radiation generated by electrical discharges

Analysis of the spectrum of electromagnetic radiation generated by electrical discharges

On-Line Partial Discharge Monitoring System for Power Transformers Based on the Simultaneous Detection of High Frequency, Ultra-High Frequency, and Acoustic Emission Signals

Variability of the UHF Signals Generated by Partial Discharges in Mineral Oil

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