Moisture effect on the dielectric response and space charge behaviour of mineral oil impregnated paper insulation
Moisture effect on the dielectric response and space charge behaviour of mineral oil impregnated paper insulation
Oil-paper insulation system is widely used in power transformers and cables. Moisture is recognized to the ?enemy number one? for transformer insulation except for temperature [1]. Moisture is not only one of the most important factor which can accelerate the transformer paper insulation aging, but also has great effect on the dielectric properties of oil-paper insulation. In this paper, dielectric response and space charge behaviour of oil-paper insulation sample with three different moisture content were investigated using the frequency dielectric spectroscopy (FDS) and the pulsed electroacoustic (PEA) technique respectively. The influence of moisture on the dielectric response and space charge behaviour of oil impregnated paper insulation was analysed. Results show that moisture has much great effect on the FDS and space charge behaviour of oil impregnated paper insulation. In the range of 10-3~106Hz, the relative permittivity of oil impregnated paper increases with its moisture content increased. And in the range of 10-2~106Hz, the dielectric loss of oil impregnated paper also increases with its moisture content increasing. In addition, the higher the moisture concentration of the oil impregnated paper, the deeper the charge penetration into the insulation paper, and the larger quantity of hetero-charge was observed in the vicinity of positive electrode and homo-charge appears in the vicinity of negative electrode.
Hao, Jian
01bbfea6-2a3e-40b3-bb0c-1c16d6dcd66d
Chen, George
3de45a9c-6c9a-4bcb-90c3-d7e26be21819
Liao, R
23f38936-cf09-4873-8e23-493d61da4e97
13 April 2011
Hao, Jian
01bbfea6-2a3e-40b3-bb0c-1c16d6dcd66d
Chen, George
3de45a9c-6c9a-4bcb-90c3-d7e26be21819
Liao, R
23f38936-cf09-4873-8e23-493d61da4e97
Hao, Jian, Chen, George and Liao, R
(2011)
Moisture effect on the dielectric response and space charge behaviour of mineral oil impregnated paper insulation.
Dielectrics 2011, The University of Kent, Canterbury, United Kingdom.
13 - 15 Apr 2011.
Record type:
Conference or Workshop Item
(Poster)
Abstract
Oil-paper insulation system is widely used in power transformers and cables. Moisture is recognized to the ?enemy number one? for transformer insulation except for temperature [1]. Moisture is not only one of the most important factor which can accelerate the transformer paper insulation aging, but also has great effect on the dielectric properties of oil-paper insulation. In this paper, dielectric response and space charge behaviour of oil-paper insulation sample with three different moisture content were investigated using the frequency dielectric spectroscopy (FDS) and the pulsed electroacoustic (PEA) technique respectively. The influence of moisture on the dielectric response and space charge behaviour of oil impregnated paper insulation was analysed. Results show that moisture has much great effect on the FDS and space charge behaviour of oil impregnated paper insulation. In the range of 10-3~106Hz, the relative permittivity of oil impregnated paper increases with its moisture content increased. And in the range of 10-2~106Hz, the dielectric loss of oil impregnated paper also increases with its moisture content increasing. In addition, the higher the moisture concentration of the oil impregnated paper, the deeper the charge penetration into the insulation paper, and the larger quantity of hetero-charge was observed in the vicinity of positive electrode and homo-charge appears in the vicinity of negative electrode.
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D2011Jian2.ppt
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Published date: 13 April 2011
Additional Information:
Event Dates: 13 - 15 April 2011
Venue - Dates:
Dielectrics 2011, The University of Kent, Canterbury, United Kingdom, 2011-04-13 - 2011-04-15
Organisations:
Electronics & Computer Science, EEE
Identifiers
Local EPrints ID: 272202
URI: http://eprints.soton.ac.uk/id/eprint/272202
PURE UUID: 265964e1-2b4a-46d5-b210-eb2e6501f492
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Date deposited: 16 Apr 2011 11:16
Last modified: 14 Mar 2024 09:48
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Contributors
Author:
Jian Hao
Author:
George Chen
Author:
R Liao
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