Detection and Recording of Partial Discharges Below the Inception Voltage with a Point-Plane Electrode Arrangement in Air: Experimental Data and Definitions

MASON, J. H.: Discharges, IEEE Trans. Electr. Insul. 13 (1978), 211-238.10.1109/TEI.1978.298074Search in Google Scholar

BRUNING, A. M.—KASTURE, D. G.—CAMPBELL, F. J. C.—TURNER, N. H.: Effect of Cavity Sub-corona Current on Polymer Insulation Life, IEEE Trans. Electr. Insul. 26 (1991), 826-836.10.1109/14.83709Search in Google Scholar

BRUNING, A. M.: Design of Electrical Insulation Systems, PhD Thesis, University of Missouri, Columbia, USA, May 1984.Search in Google Scholar

BRANCATO, E.: Electrical Aging - A New Insight, IEEE Electr. Insul. Mag. 6 (1990), 50-51.Search in Google Scholar

DANIKAS, M. G.—PRIONISTIS, F. K.: Detection and Recording of Partial Discharges Below the So-called Inception Voltage, Facta Universitatis 17 (2004), 99-110.Search in Google Scholar

DANIKAS, M. G.—VRAKOTSOLIS, N.: Experimental Results with Small Air Gaps: Further Thoughts and Comments on the Discharge (or Charging Phenomena) Below the So-called Inception Voltage, J. Electr. Eng. 56 (2005), 246-251.Search in Google Scholar

MASON, J. H.: Breakdown of Solid Dielectrics in Divergent Fields, Proc. IEE 102 (Pt. C) (1955), 254-263.10.1049/pi-c.1955.0030Search in Google Scholar

BRUNING, A. M.—DANIKAS, M. G.: Observations on Discharges Above and Below CIV in Polymer Insulation, Ann. Rep. Conf. Electr. Insul. Diel. Phen., October 1991, Knoxville, Tennessee, USA, 638-647.Search in Google Scholar

REYNDERS, J. P.: Electrical Detection of Degradation Caused by Partial Discharges in Polythene, Int. Conf. Diel. Mat. Meas. Appl., July 21-25, 1975, Cambridge, England, 19-22.Search in Google Scholar

TANAKA, T.—OKAMOTO, T.—NAKANISHI, K.—MIYAMOTO, T.: Aging and Related Phenomena in Modern Electric Power Systems, IEEE Trans. Electr. Insul. 28 (1993), 826-844.10.1109/14.237744Search in Google Scholar

BARTNIKAS, R.—NOVAK, J. P.: On the Spark to Pseugoglow and Glow Discharge Transition Mechanism and Discharge Detectability, IEEE Trans. Electr. Insul 27 yr1992, 3-14.10.1109/14.123436Search in Google Scholar

BRUNING, A. M.: Private Communication, 20 October 1990.Search in Google Scholar

KUFFEL, E.—ZAENGL, W. S.—KUFFEL, J.: High Voltage Engineering Fundamentals, Eds. Newnes, Oxford, England, 2000.Search in Google Scholar

Private Communication with colleagues who participated in the International Symposim on Electrical Insulation, Vacouver, Canada, 11 June 2008.Search in Google Scholar

LAIRD, T.: Private Communication, 10 June 2008.Search in Google Scholar

DANIKAS, M. G.: The Definitions Used for Partial Discharge Phenomena, IEEE Trans. Electr. Insul. 28 (1993), 1075-1081.10.1109/14.249381Search in Google Scholar

DANIKAS, M. G.: Small Partial Discharges and their Role in Insulation Deterioration, IEEE Trans. Diel. Electr. Insul. 4 (1997), 863-867.10.1109/94.654733Search in Google Scholar

DANIKAS, M. G.—BRUNING, A. M.: Comparison of Several Theoretical Sub-corona to Corona Transition Relations with Recent Experimental results, Conf. Rec. IEEE Int. Symp. Electr. Insul., June 7-10, 1992, Baltimore, USA, 383-388.Search in Google Scholar

KELEN, A.: Studies on Partial Discharges on Solid Dielectrics: A Contribution to the Discharge Resistance Testing of Insulating Materials, Acta Polytechnica Scandinavica, Electrical Engineering Series, 1967, pp. 138.Search in Google Scholar

THOMAS, A. M.: Heat Developed and "Powder" Figures and the Ionization of Dielectric Surfaces Produced by Electrical Impulses, British J. Appl. Phys. 4 (1951), 98-109.10.1088/0508-3443/2/4/303Search in Google Scholar

MASON, J. H.: Dielectric Breakdown in Solid Insulation, Progress Diel. 1 (1959), 1-58.Search in Google Scholar

MAYOUX, C.: Contribution a lEtude de lAction, surd de Poly-ethylene, de Differentes Formes dEnergie Presentes dans les Descharges Partielles, PhD Thesis, Universite Paul Sabatier, Toulouse, France, 1972.Search in Google Scholar

DEVINS, J. C.: The Physics of Partial Discharges in Solid Dielectrics, IEEE Trans. Electr. Insul. 19 (1984), 475-495.10.1109/TEI.1984.298770Search in Google Scholar

KUTIL, A.: Die Bedeutung von Teilentladungen in Faserverstaerkten Isolierstoffen, PhD Thesis, Technische Universitaet Wien, Oesterreich, 1996.Search in Google Scholar

BURGENER, H.-P.—FROEHLICH, K.: Probability of Partial Discharge Inception in Small Voids, Ann. Rep. Conf. Electr. Insul. Diel. Phen. (CEIDP), Kitchener, USA, October 2001.Search in Google Scholar

NAWAWI, Z.—MURAMOTO, Y.—NAGAO, M.: Effect of Humidity on Partial Discharge Characteristics, Proc. 7^th Int. Conf. Prop. Appl. Diel. Mater., Nagoya, Japan, 1-5 June 2003.Search in Google Scholar

DANIKAS, M. G.—PITSA, D.: Detection and Registration of Partial Discharge Events Below the So-called Inception Voltage: The Case of Small Air Gaps, J. Electr. Eng. 59 No. 3 (2008), 160-164.Search in Google Scholar

TANAKA, T.—GREENWOOD, A.: Advanced Power Cable Technology, Vol. I (Basic Concepts and Testing), Eds. CRC Press Inc., Florida, USA, 1983.Search in Google Scholar

TANAKA, T.—GREENWOOD, A.: Advanced Power Cable Technology, Vol. II (Present and Future), Eds. CRC Press Inc., Florida, USA, 1983.Search in Google Scholar