Dielectric Measurements on New Power Transformer Insulation [includes discussion]

Teague, W. L.; McWhirter, J. H.

doi:10.1109/aieepas.1952.4498537

Cited by 6 publications

(3 citation statements)

References 12 publications

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“…AIEE paper No. 52-159 [9] reported a decline in the impulse strength of oil impregnated pressboard from 250 kV crest at 0.5% moisture to about 170 kV at 3% moisture content of the paper.…”

Section: Ii-5 Effect Of Moisture On Impulse Strength Of Distribution mentioning

confidence: 99%

Impulse strength of distribution transformers under load. Final report, February 1975--September 1976

Kaufman¹

1976

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“…AIEE paper No. 52-159 [9] reported a decline in the impulse strength of oil impregnated pressboard from 250 kV crest at 0.5% moisture to about 170 kV at 3% moisture content of the paper.…”

Section: Ii-5 Effect Of Moisture On Impulse Strength Of Distribution mentioning

confidence: 99%

Impulse strength of distribution transformers under load. Final report, February 1975--September 1976

Kaufman¹

1976

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“…Equation (2) shows that the DC electric field withstand by the pressboard is higher than that in the oil.…”

Section: Analysis Of Electric Filed Distributionmentioning

confidence: 99%

“…For the converter transformers used in HVDC (High Voltage Direct Current) transmission systems, the valve-side windings withstand complicated voltage stresses, which consist of AC, DC and harmonic waveforms [1,2]. Partial discharge (PD) activities under the AC-DC combined voltages are different from PDs in transformers of AC grids [3][4][5][6][7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Partial Discharge of Needle-Plane Defect in Oil-Paper Insulation under AC and DC Combined Voltages: Developing Processes and Characteristics

Sun

Zhu

et al. 2017

Energies

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Partial discharge (PD) behaviors of oil-paper insulation is distinctive in AC and DC combined electric fields in converter transformers from PD behaviors in pure AC or DC electric fields. The present study focuses on the PD developing processes and characteristics of oil-paper insulation systems with needle-plane defects under different AC/DC proportions. The degradation of oil-paper insulation can be accelerated by PD pulses incurred by needle-plane defects. AC-DC combined voltages are applied to the needle-plane defect model simultaneously in the established experimental platform, and the proportions of AC/DC voltages are decided according to the cases in actual converter transformers. The developing processes from the initiation of partial discharge until final breakdown were observed for each AC/DC proportion. PD parameters and patterns were acquired by a detector using the pulse current method. The test results indicate that the inception and breakdown voltages increase with the increase of the DC component in AC-DC combined voltages. However, pulse repetition rate and amplitude of PD shows a descending trend when AC/DC proportion decreases. Meanwhile, the PD recurrence rate in the phase between 180 • and 360 • becomes higher than that in the phase between 0 • and 180 • at the initial stage as the DC proportion increases; high-amplitude discharges mainly occur in the phase range between 180 • and 360 • when the pressboard is close to breakdown. The current study is useful in further research on fault diagnosis in converter transformers.

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Evaluation of diffusion-driven material property profiles using three-wavelength interdigital sensor

Mamishev

Bau

et al. 2001

IEEE Trans. Dielect. Electr. Insul.

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The response of a three-wavelength interdigital dielectrometry sensor to the moisture diffusion process in oil-impregnated transformer pressboard has been simulated using an empirical relationship between the moisture concentration and the dielectric properties of the pressboard. A benchmark test of the moisture diffusion process has been developed with the purpose of comparing alternative parameter estimation algorithms used in w-lc (frequency wavenumber) dielectrometry. The results of simulations highlight characteristic features of the multi-wavelength sensor respon e delay from the start of the transient moisture diffusion process ngth, the influence of moisture boundary conditions, and the r nitude and variations of dielectric properties. One of the parameter estimation algorithms, linear calibrated admittancebased estimation (LCABE), has been applied to both simulated and measured data. Adequate performance of the LCABE approach in the absence of strong ,discontinuities of dielectric properties in the electric field penetration region is demonstrated and contrasted to an electrically shielded region case, in which the signal response becomes nonlinear. The proposed approach offers significant potential for the measurement of diffusion processes in various dielectrics, especially for cases with highly irregular geometry or material structure. Measurement results from moisture diffusion process monitoring are included. Parameter estimation of measurement results with LCABE confirm its applicability to the monitoring of moisture dynamics in transformer pressboard.

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Dielectric Measurements on New Power Transformer Insulation [includes discussion]

Cited by 6 publications

References 12 publications

Impulse strength of distribution transformers under load. Final report, February 1975--September 1976

Impulse strength of distribution transformers under load. Final report, February 1975--September 1976

Partial Discharge of Needle-Plane Defect in Oil-Paper Insulation under AC and DC Combined Voltages: Developing Processes and Characteristics

Evaluation of diffusion-driven material property profiles using three-wavelength interdigital sensor

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