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The effects of semicon on space charge behaviour in XLPE model cables

The effects of semicon on space charge behaviour in XLPE model cables
The effects of semicon on space charge behaviour in XLPE model cables

Space charge suppression is one of the major requirement for HVDC power cables. Many efforts have been done for developing improved insulation materials. However, as an important part of the cable insulation system, the semicon material can also greatly influence the space charge characteristics of the HVDC cables. In this paper, an attempt is made to explore the space charge characteristics using different semicon materials to highlight the variation in space charge formation and distribution in a model cable using pulsed electro acoustic (PEA) technique. A model cable with different semicon materials for inner and outer semicon screens were manufactured. The experimental results revealed that the semiconductive materials has a greater influence on the space charge formation. It was found that only hetero charges accumulate near the outer semicon screen which is made of AC semicon material, while the space charge accumulation is suppressed near the inner semicon screen which is made of DC semicon material. The results are also consistent with the sandwiched plaque XLPE samples thermally bonded with different semicon materials. The findings of this work suggest that the good co-work between the insulation and semicon material can suppress the space charge accumulation that benefit the whole HVDC cable insulation system.

Charge injection, HVDC cable, PEA, Semiconducting material, Space charge, XLPE
IEEE
Hao, Miao
fb7006e0-07c0-46f5-9279-e30a7d3bd614
Chen, George
0eefb472-a787-4ba8-ae33-3554710cd9a7
Wang, Haitian
7f867657-bb51-48a8-ad1a-98241c1d02b9
Zhou, Mingyu
964c43a7-3a1e-4b39-9008-1d3bd29ac82f
Lei, Xianzhang
5fb22438-77e5-48d1-9851-b2109286504c
Chen, Xin
927cf7ef-386c-42b5-aac4-c35836675619
Zhang, Chong
77caa4ba-ea19-4fa6-b92e-b77dc6e00b81
Li, Wenpeng
9b375ed5-a556-4879-8a34-4cd61ec0825b
Hao, Miao
fb7006e0-07c0-46f5-9279-e30a7d3bd614
Chen, George
0eefb472-a787-4ba8-ae33-3554710cd9a7
Wang, Haitian
7f867657-bb51-48a8-ad1a-98241c1d02b9
Zhou, Mingyu
964c43a7-3a1e-4b39-9008-1d3bd29ac82f
Lei, Xianzhang
5fb22438-77e5-48d1-9851-b2109286504c
Chen, Xin
927cf7ef-386c-42b5-aac4-c35836675619
Zhang, Chong
77caa4ba-ea19-4fa6-b92e-b77dc6e00b81
Li, Wenpeng
9b375ed5-a556-4879-8a34-4cd61ec0825b

Hao, Miao, Chen, George, Wang, Haitian, Zhou, Mingyu, Lei, Xianzhang, Chen, Xin, Zhang, Chong and Li, Wenpeng (2018) The effects of semicon on space charge behaviour in XLPE model cables. In 2018 IEEE 2nd International Conference on Dielectrics, ICD 2018. IEEE. 4 pp . (doi:10.1109/ICD.2018.8470212).

Record type: Conference or Workshop Item (Paper)

Abstract

Space charge suppression is one of the major requirement for HVDC power cables. Many efforts have been done for developing improved insulation materials. However, as an important part of the cable insulation system, the semicon material can also greatly influence the space charge characteristics of the HVDC cables. In this paper, an attempt is made to explore the space charge characteristics using different semicon materials to highlight the variation in space charge formation and distribution in a model cable using pulsed electro acoustic (PEA) technique. A model cable with different semicon materials for inner and outer semicon screens were manufactured. The experimental results revealed that the semiconductive materials has a greater influence on the space charge formation. It was found that only hetero charges accumulate near the outer semicon screen which is made of AC semicon material, while the space charge accumulation is suppressed near the inner semicon screen which is made of DC semicon material. The results are also consistent with the sandwiched plaque XLPE samples thermally bonded with different semicon materials. The findings of this work suggest that the good co-work between the insulation and semicon material can suppress the space charge accumulation that benefit the whole HVDC cable insulation system.

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More information

Published date: 19 September 2018
Venue - Dates: 2nd International Conference on Dielectrics, Danubius Hotel Helia, Budapest, Hungary, 2018-07-01 - 2018-07-05
Keywords: Charge injection, HVDC cable, PEA, Semiconducting material, Space charge, XLPE
Learn more about Electronics & Computer Science research Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 426539
URI: http://eprints.soton.ac.uk/id/eprint/426539
DOI: doi:10.1109/ICD.2018.8470212
PURE UUID: 78c56a53-a092-44c4-b453-ef8d8d2a1691

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Date deposited: 30 Nov 2018 17:30
Last modified: 17 Mar 2024 12:15

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Contributors

Author: Miao Hao
Author: George Chen
Author: Haitian Wang
Author: Mingyu Zhou
Author: Xianzhang Lei
Author: Xin Chen
Author: Chong Zhang
Author: Wenpeng Li

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