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Recovery voltage measurement on oil-paper insulation with simple geometry and controlled environment

Recovery voltage measurement on oil-paper insulation with simple geometry and controlled environment
Recovery voltage measurement on oil-paper insulation with simple geometry and controlled environment
Using the recovery voltage of oil-paper insulation to diagnose its state of maintenance is very popular among electrical engineers. Many advantages of using recovery voltage includes non-intrusive, easy to operate, more resistant to noise compare to other non-intrusive diagnostic methods. However the lack of understanding on the physical process causes dispute over interpretation of measurement results. This also discourages further application of recovery voltage to non-standard insulation systems because there is no known standard reference to which comparison can be made. Experiments have been carried out to study recovery voltage of oil-paper as a response of insulation material. The variation of recovery voltage in response to sample geometry, temperature and moisture are studied. The results reveal that the traditional Debye polarisation model, implemented as parallel RC-circuit in recovery voltage software, is not a satisfactory description of the physical process. The interfacial charge movements play more dominant role in the formation of recovery voltage in oil-paper insulation systems and the use of exponential function to describe the interfacial charge movements is both uneconomical and unphysical.
Recovery voltage, oil-paper insulation, electrode geometry
0-7803-8348-6
739-742
Kuang, Y C
828c2957-f37a-4b1c-871e-bd1918878e2d
Chen, G
3de45a9c-6c9a-4bcb-90c3-d7e26be21819
Jarman, P
390aafbd-393e-4e20-bace-b4416e0dd456
Kuang, Y C
828c2957-f37a-4b1c-871e-bd1918878e2d
Chen, G
3de45a9c-6c9a-4bcb-90c3-d7e26be21819
Jarman, P
390aafbd-393e-4e20-bace-b4416e0dd456

Kuang, Y C, Chen, G and Jarman, P (2004) Recovery voltage measurement on oil-paper insulation with simple geometry and controlled environment. 2004 IEEE International Conference on Solid Dielectrics, Toulouse, France. 05 - 09 Jul 2004. pp. 739-742 .

Record type: Conference or Workshop Item (Paper)

Abstract

Using the recovery voltage of oil-paper insulation to diagnose its state of maintenance is very popular among electrical engineers. Many advantages of using recovery voltage includes non-intrusive, easy to operate, more resistant to noise compare to other non-intrusive diagnostic methods. However the lack of understanding on the physical process causes dispute over interpretation of measurement results. This also discourages further application of recovery voltage to non-standard insulation systems because there is no known standard reference to which comparison can be made. Experiments have been carried out to study recovery voltage of oil-paper as a response of insulation material. The variation of recovery voltage in response to sample geometry, temperature and moisture are studied. The results reveal that the traditional Debye polarisation model, implemented as parallel RC-circuit in recovery voltage software, is not a satisfactory description of the physical process. The interfacial charge movements play more dominant role in the formation of recovery voltage in oil-paper insulation systems and the use of exponential function to describe the interfacial charge movements is both uneconomical and unphysical.

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ICSD2005-Recovery_Voltage_in_Transformer_Paper.pdf - Other
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More information

Published date: 2004
Additional Information: Event Dates: July 5--9, 2004
Venue - Dates: 2004 IEEE International Conference on Solid Dielectrics, Toulouse, France, 2004-07-05 - 2004-07-09
Keywords: Recovery voltage, oil-paper insulation, electrode geometry
Organisations: Electronics & Computer Science, EEE
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 260167
URI: http://eprints.soton.ac.uk/id/eprint/260167
ISBN: 0-7803-8348-6
PURE UUID: 80f58ad2-74a7-4d04-8bea-1d10f1a01df7

Catalogue record

Date deposited: 01 Dec 2004
Last modified: 14 Mar 2024 06:34

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Contributors

Author: Y C Kuang
Author: G Chen
Author: P Jarman

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