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Space Charge Measurements On Impregnated Paper: A Review Of The PEA Method And A Discussion Of Results

P. Morshuis, M. Jeroense
Published 1997 · Materials Science

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In electrical insulation in high voltage equipment being serviced under dc stress, space charge is often present. This change greatly influences the electrical field. Quantitative knowledge about the presence of space charge is therefore needed. This paper describes the quest for useful measurement principles. One measurement principle, the Pulsed Electroacoustic method, will be described extensively. The method of calibration and the importance of knowledge about the frequency response of the system are described. The results of space charge measurements on impregnated paper samples are presented and discussed, along with a model that predicts the observations fairly well.
This paper references
10.1109/94.300251
Pulsed electroacoustic method for measurement of charge accumulation in solid dielectrics
Y. Li (1994)
10.1109/14.142704
Observation of charge behavior in organic photoconductor using pressure-wave propagation method
M. Maeda (1991)
10.1109/CEIDP.1994.591805
A statistical aging model for XLPE-insulated medium voltage distribution cables
S.L. McCune (1994)
10.1088/0950-7671/44/7/308
The examination of the electrical properties of insulators by surface charge measurement
D. K. Davies (1967)
Partial discharge and Breakdown Testing at High DC Voltage
U. Fromm (1995)
10.1109/59.141771
Reliability considerations in accelerated life testing of electrical insulation with generalized life distribution function
J. Biernat (1991)
10.1088/0022-3727/25/4/017
Experimental observation of charge transport and injection in XLPE at polarity reversal
Y. Li (1992)
10.1049/pbed009e
Electrical degradation and breakdown in polymers
L. A. Dissado (1992)
10.1007/BF01476826
Theoretical studies on nanosecond surface discharge phenomena observed using Lichtenberg figure method
Y. Murooka (1990)
10.1109/14.2384
Measurement of spatial charge distribution in thick dielectrics using the pulsed electroacoustic method
T. Maeno (1988)
10.1109/TEI.1986.349076
Evolution of Experimental Techniques for the Study of the Electrical Properties of Insulating Materials
J. Lewiner (1986)
10.1103/PHYSREVB.27.2494
Analysis of pressure-wave methods for the nondestructive determination of spatial charge or field distributions in dielectrics
R. Gerhard-Multhaupt (1983)
10.1109/94.485514
Application of the Kalman filter for electrical endurance characterization of insulating materials and systems
G. Montanari (1996)
10.1109/14.256473
Electrical life threshold models for solid insulating materials subjected to electrical and multiple stresses. II. Probabilistic approach to generalized life models
M. Cacciari (1992)
10.1115/1.3662552
A new approach to linear filtering and prediction problems" transaction of the asme~journal of basic
R. Kalman (1960)
10.1109/94.469968
Electrical conduction in HVDC mass-impregnated paper cable
M. Jeroense (1995)
10.1109/ICPADM.1991.172296
Influence on spatial charge distribution of cross-linking agent residues in XLPE
Y. Li (1991)



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10.1109/CICED.2018.8592532
Comprehensive Evaluation of Insulation Performance of DC XLPE Cables
L. Ji (2018)
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R. Ciobanu (2004)
10.1109/EIC.2017.8004623
Research on the variation of transformer pressboard's resistivity and permittivity with temperature and moisture
Chunjia Gao (2017)
10.15376/BIORES.8.4.5655-5665
Space Charge Behavior in Oil-Impregnated Insulation Paper Reinforced with Nano-TiO2
R. Liao (2013)
10.1109/94.868078
The influence of electrodes and conditioning on space charge accumulation in XLPE
R. Fleming (2000)
10.1109/ICDL.2002.1022759
Space charge evolution in oil-paper insulation for DC cables application
R. Ciobanu (2002)
10.1109/ICSD.2007.4290861
Calculation and Measurement of Space Charge in MV-size Extruded Cables Systems under Load Conditions
P. Morshuis (2007)
10.1109/ICHVE.2012.6357125
The properties of space charge in oil-paper insulation during electrical-thermal aging
Sicheng Wu (2012)
10.1109/ACCESS.2020.2967633
Effect of Temperature on Space Charge Distribution in Two Layers of Transformer Oil and Impregnated Pressboard Under DC Voltage
J. Zhang (2020)
10.1109/MEI.2013.6585854
Advances in high-field insulating polymeric materials over the past 50 years
G. Teyssèdre (2013)
10.1109/CEIDP.2010.5724051
A deconvolution technique for space charge recovery in lossy and dispersive dielectrics using PEA method
B. Vissouvanadin (2010)
10.1109/ICPADM.2003.1218512
Charge packet evolution in paper-oil insulation and derived technological considerations
R. Ciobanu (2003)
10.1109/CEIDP.1997.634551
Space charge in HVDC cable insulation
P. Morshuis (1997)
10.1016/J.ELSTAT.2008.12.012
Space charge phenomena in oil-paper insulation materials under high voltage direct current
Y. Zhou (2008)
Space charge phenomena interpretation towards accounting for material structure or quality of the applied technology
W. Pfeiffer (2001)
10.5370/JEET.2015.10.3.1124
Space Charge Behavior of Oil-paper Insulation Thermally Aged under Different Temperatures and Moistures
Y. Zhou (2015)
10.1109/ICSD.2004.1350498
A new model for recovery voltage of oil-paper insulation system
Y.C. Kuang (2004)
10.1109/ICSD.2013.6619827
Space charge behaviour in thick oil-impregnated pressboard under HVDC stresses
Miao Hao (2013)
Space charge accumulation in polymeric high voltage DC cable systems
R. Bodega (2006)
10.1109/TDEI.2015.005293
Space charge behavior in oil gap and impregnated pressboard combined system under HVDC stresses
Miao Hao (2016)
10.1109/TDEI.2014.004481
Space charge distribution in oil impregnated papers under temperature gradient
Qingdong Zhu (2015)
10.1108/COMPEL-12-2016-0564
Simulation on motion characteristics of space charge in single oil-paper insulation
Yang Zhifei (2017)
Space charge behaviours of mineral oil and ester liquids impregnated cellulose paper insulations under DC stress
Zhou Mu (2018)
10.1109/ISEIM.2011.6826348
Temperature effect on space charge behavior in oil-impregnated paper insulation
D. Wang (2011)
10.1109/CEIDP.2015.7352132
Space charge dynamics in oil-impregnated pressboard under AC electric field
Miao Hao (2015)
10.1109/ICSD.2010.5568030
Effects of temperature gradient on space charge accumulation at applied voltage reversal in LDPE film
K. Wu (2010)
10.1038/srep16986
“Thermal Stabilization Effect” of Al2O3 nano-dopants improves the high-temperature dielectric performance of polyimide
Yang Yang (2015)
10.7567/JJAP.53.106601
Calibration of pulsed electroacoustic method considering electrode-dielectric interface status and porosity
M. Huang (2014)
10.5324/NORDIS.V0I26.3278
Development and Optimization of a Pulsed Electroacoustic System with Temperature Controlled Electrodes
Rashid Hussain (2019)
10.1109/ICSD.1998.709217
Moisture and space charge in oil-impregnated pressboard under HVDC
R. Liu (1998)
10.1109/ACCESS.2020.3024768
Effect of Moistures on Space Charge and Trap Level Characteristics of Oil-Impregnated Pressboards
Y. Guan (2020)
10.1109/CEIDP.2016.7785698
Interface matters in dielectrics
K. Fukunaga (2016)
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