The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

Functional Nanomaterials For Electric Power Industry

Functional Nanomaterials For Electric Power Industry
Functional Nanomaterials For Electric Power Industry
The last decade of research has demonstrated that it is possible to tailor dielectrics, thus opening the possibility to implement functionality from a nanoscale modification or nanostructuration. The brochure consolidates knowledge and illustrates the empirical basis for designing dielectric properties. Nanotechnology offers benefits for different electrotechnical applications, e.g. cables, transformer and substation equipment, and rotating machines. Advanced nanocarbons in semiconductive shields are discussed and multifunctional nanodielectrics for HVDC cable application are considered in the context of space-charge control. Nanocomposite insulation benefits for cast resin transformers are introduced. Moreover, current progress in nanodielectrics for fluid applications is discussed and the use of functional nanomaterials in outdoor insulation is mentioned. Further, some results from the European project ANASTASIA are presented and strategies for using nanodielectrics in high-voltage rotating machines are mentioned.
CIGRE
Frechette, M.F.
b3f9b1ac-a8c9-4b46-a47b-7657883ee300
Vaughan, Alun
6d813b66-17f9-4864-9763-25a6d659d8a3
Allais, A.
40fea4f4-481a-4c0e-b0d5-33382c2b2f4d
Häring, U.
55c31b9e-8b7b-4c5b-b072-4d67a7d6f782
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Bergmann, I.
e33daf56-8790-4df3-968f-19957f892a48
Castellon, Jerome
04c3b303-ff82-4cab-98b2-3f96d172df24
Cristiano, A.
5e5161a2-9a67-493d-a1a4-5025e2c63fe2
David, Eric
d210f179-06d4-438e-b4ad-a43aa6ffcf7e
Darques, M.
ccba873b-da99-4e0e-8921-d2676a7251a3
Englund, V.
9bb0d10a-15de-4210-aa7f-c6d8f74c8f83
Fabiani, Davide
4d531d77-84e8-4e6a-8a01-931c3bea59bc
Germano, A.
e80c69da-36a9-46ff-83f5-25fd0f086055
Han, S.J.
9f0c4d14-2a8f-4fce-8a91-152229af2930
Perrot, Fabrice
80a80bf4-6adf-4c8d-9296-415b986332ac
Quirke, Nick
abc4aff2-25c6-4e50-be09-4ef24d638ff9
Reed, Clive
0e75490c-0cb0-45b8-93dd-6140c23c17ef
Shimizu, T
a8fe1f1b-0166-44b3-8591-aa8447355ddf
Sutton, Simon
571c7136-1eb6-44e1-8979-ca0829469a6b
Tanaka, Toshikatsu
bc8cb70a-ed6a-402b-af46-a82321d5db95
Weidner, J.
29b955e3-0dd1-48dc-a940-0622390c89e2
Frechette, M.F.
b3f9b1ac-a8c9-4b46-a47b-7657883ee300
Vaughan, Alun
6d813b66-17f9-4864-9763-25a6d659d8a3
Allais, A.
40fea4f4-481a-4c0e-b0d5-33382c2b2f4d
Häring, U.
55c31b9e-8b7b-4c5b-b072-4d67a7d6f782
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Bergmann, I.
e33daf56-8790-4df3-968f-19957f892a48
Castellon, Jerome
04c3b303-ff82-4cab-98b2-3f96d172df24
Cristiano, A.
5e5161a2-9a67-493d-a1a4-5025e2c63fe2
David, Eric
d210f179-06d4-438e-b4ad-a43aa6ffcf7e
Darques, M.
ccba873b-da99-4e0e-8921-d2676a7251a3
Englund, V.
9bb0d10a-15de-4210-aa7f-c6d8f74c8f83
Fabiani, Davide
4d531d77-84e8-4e6a-8a01-931c3bea59bc
Germano, A.
e80c69da-36a9-46ff-83f5-25fd0f086055
Han, S.J.
9f0c4d14-2a8f-4fce-8a91-152229af2930
Perrot, Fabrice
80a80bf4-6adf-4c8d-9296-415b986332ac
Quirke, Nick
abc4aff2-25c6-4e50-be09-4ef24d638ff9
Reed, Clive
0e75490c-0cb0-45b8-93dd-6140c23c17ef
Shimizu, T
a8fe1f1b-0166-44b3-8591-aa8447355ddf
Sutton, Simon
571c7136-1eb6-44e1-8979-ca0829469a6b
Tanaka, Toshikatsu
bc8cb70a-ed6a-402b-af46-a82321d5db95
Weidner, J.
29b955e3-0dd1-48dc-a940-0622390c89e2

Frechette, M.F., Vaughan, Alun, Allais, A., Häring, U., Andritsch, Thomas, Bergmann, I., Castellon, Jerome, Cristiano, A., David, Eric, Darques, M., Englund, V., Fabiani, Davide, Germano, A., Han, S.J., Perrot, Fabrice, Quirke, Nick, Reed, Clive, Shimizu, T, Sutton, Simon, Tanaka, Toshikatsu and Weidner, J. (2016) Functional Nanomaterials For Electric Power Industry , CIGRE, 97pp.

Record type: Book

Abstract

The last decade of research has demonstrated that it is possible to tailor dielectrics, thus opening the possibility to implement functionality from a nanoscale modification or nanostructuration. The brochure consolidates knowledge and illustrates the empirical basis for designing dielectric properties. Nanotechnology offers benefits for different electrotechnical applications, e.g. cables, transformer and substation equipment, and rotating machines. Advanced nanocarbons in semiconductive shields are discussed and multifunctional nanodielectrics for HVDC cable application are considered in the context of space-charge control. Nanocomposite insulation benefits for cast resin transformers are introduced. Moreover, current progress in nanodielectrics for fluid applications is discussed and the use of functional nanomaterials in outdoor insulation is mentioned. Further, some results from the European project ANASTASIA are presented and strategies for using nanodielectrics in high-voltage rotating machines are mentioned.

This record has no associated files available for download.

More information

Published date: 2016
Related URLs:
Learn more about Electrical Power Engineering research

Identifiers

Local EPrints ID: 452284
URI: http://eprints.soton.ac.uk/id/eprint/452284
PURE UUID: 5e57dcf7-f5d6-4cec-8d39-a029120a16ab
ORCID for Alun Vaughan: ORCID iD orcid.org/0000-0002-0535-513X
ORCID for Thomas Andritsch: ORCID iD orcid.org/0000-0002-3462-022X

Catalogue record

Date deposited: 03 Dec 2021 17:30
Last modified: 17 Mar 2024 03:33

Export record

Contributors

Author: M.F. Frechette
Author: Alun Vaughan ORCID iD
Author: A. Allais
Author: U. Häring
Author: Thomas Andritsch ORCID iD
Author: I. Bergmann
Author: Jerome Castellon
Author: A. Cristiano
Author: Eric David
Author: M. Darques
Author: V. Englund
Author: Davide Fabiani
Author: A. Germano
Author: S.J. Han
Author: Fabrice Perrot
Author: Nick Quirke
Author: Clive Reed
Author: T Shimizu
Author: Simon Sutton
Author: Toshikatsu Tanaka
Author: J. Weidner

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×