Investigation of incipient faults in 66 kV oil‐filled cable sealing ends
Investigation of incipient faults in 66 kV oil‐filled cable sealing ends
This paper reports on the investigation of incipient fault mechanisms of a widely used family of Cable Sealing Ends (CSEs) which use an earthed metallic clip on top of the stress cone to fasten the cable termination stress grading. Finite element simulations indicate that the clip is causing localised electric field enhancement which could also cause impurities in the oil to move towards the clip under the influence of the dielectrophoretic force. Accelerated ageing tests of stress cones in the laboratory have corroborated the simulation results, with the high electric field causing degradation of the semi-conducting tape underneath the clip as well as initiation of tracking on the surface of the stress cone originating from the edges of the clip. Partial discharge (PD) testing using a bespoke test rig in the high voltage laboratory has shown that incipient faults originating from the ageing of the solid CSE materials can only be detected after surface tracking has progressed substantially. Even then, the intermittent nature of PD activity can pose a risk to the accurate condition assessment of CSEs if continuous monitoring is not employed and if the ultra-high frequency method is used on its own.
666-675
Peesapati, Vidyadhar
67db5535-1d10-4e69-9d04-a65316b7ef42
Zachariades, Christos
b688caaa-eab9-4cdd-afa6-34a419e69cd3
Callender, George
4189d79e-34c3-422c-a601-95b156c27e76
Gao, Siyu
5662eeeb-ddd0-44c5-bf49-2774e5cf221e
Cwikowski, Oliver
ddb7547b-f9b5-48d6-9c2f-f7f332e0495d
Gardner, Richard
09358493-0849-4e5c-9f59-dfc644d5211a
August 2022
Peesapati, Vidyadhar
67db5535-1d10-4e69-9d04-a65316b7ef42
Zachariades, Christos
b688caaa-eab9-4cdd-afa6-34a419e69cd3
Callender, George
4189d79e-34c3-422c-a601-95b156c27e76
Gao, Siyu
5662eeeb-ddd0-44c5-bf49-2774e5cf221e
Cwikowski, Oliver
ddb7547b-f9b5-48d6-9c2f-f7f332e0495d
Gardner, Richard
09358493-0849-4e5c-9f59-dfc644d5211a
Peesapati, Vidyadhar, Zachariades, Christos, Callender, George, Gao, Siyu, Cwikowski, Oliver and Gardner, Richard
(2022)
Investigation of incipient faults in 66 kV oil‐filled cable sealing ends.
High Voltage, 7 (4), .
(doi:10.1049/hve2.12192).
Abstract
This paper reports on the investigation of incipient fault mechanisms of a widely used family of Cable Sealing Ends (CSEs) which use an earthed metallic clip on top of the stress cone to fasten the cable termination stress grading. Finite element simulations indicate that the clip is causing localised electric field enhancement which could also cause impurities in the oil to move towards the clip under the influence of the dielectrophoretic force. Accelerated ageing tests of stress cones in the laboratory have corroborated the simulation results, with the high electric field causing degradation of the semi-conducting tape underneath the clip as well as initiation of tracking on the surface of the stress cone originating from the edges of the clip. Partial discharge (PD) testing using a bespoke test rig in the high voltage laboratory has shown that incipient faults originating from the ageing of the solid CSE materials can only be detected after surface tracking has progressed substantially. Even then, the intermittent nature of PD activity can pose a risk to the accurate condition assessment of CSEs if continuous monitoring is not employed and if the ultra-high frequency method is used on its own.
Text
High Voltage - 2022 - Peesapati - Investigation of incipient faults in 66 kV oil‐filled cable sealing ends
- Version of Record
More information
Accepted/In Press date: 8 January 2022
e-pub ahead of print date: 13 April 2022
Published date: August 2022
Identifiers
Local EPrints ID: 494754
URI: http://eprints.soton.ac.uk/id/eprint/494754
ISSN: 2397-7264
PURE UUID: 835da942-3aab-4a13-8fee-74bde32b2560
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Date deposited: 15 Oct 2024 16:38
Last modified: 15 Oct 2024 16:40
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Contributors
Author:
Vidyadhar Peesapati
Author:
Christos Zachariades
Author:
George Callender
Author:
Siyu Gao
Author:
Oliver Cwikowski
Author:
Richard Gardner
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