High Temperature Permanent Magnet Synchronous Machine Analysis of Thermal Field
The subject of the paper is a three-dimensional analysis of a coupled fluid-thermal and electromagnetic field in permanent magnet synchronous machine that can work at very high temperatures. To obtain the distribution of the airflow and temperature we employed the coupled fluid-thermal model of the...
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Online Access: | https://doi.org/10.1515/phys-2019-0065 |
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doaj-55c43bde9f61451db14a5d4f27ada0db2021-09-05T13:59:37ZengDe GruyterOpen Physics2391-54712019-11-0117163164210.1515/phys-2019-0065phys-2019-0065High Temperature Permanent Magnet Synchronous Machine Analysis of Thermal FieldKomeza Krzysztof0Lefik Marcin1Roger Daniel2Juszczak Ewa Napieralska3Elmadah Hamed4Napieralski Piotr5Takorabet Noureddine6Institute of Mechatronics and Information Systems, Lodz University of Technology, ul. Stefanowskiego 18/22, 90-924Lodz, PolandInstitute of Mechatronics and Information Systems, Lodz University of Technology, ul. Stefanowskiego 18/22, 90-924Lodz, PolandUniv. Artois, EA4025, LSEE, 62400BethuneFrance, Technoparc FuturaUniv. Artois, EA4025, LSEE, 62400BethuneFrance, Technoparc FuturaUniv. Artois, EA4025, LSEE, 62400BethuneFrance, Technoparc FuturaInstitute of Information Technology, Lodz University of Technology, ul. Stefanowskiego 18/22, 90-924Lodz, PolandUniversite de Lorraine, GREEN Vandoeuvre de Nancy, FranceThe subject of the paper is a three-dimensional analysis of a coupled fluid-thermal and electromagnetic field in permanent magnet synchronous machine that can work at very high temperatures. To obtain the distribution of the airflow and temperature we employed the coupled fluid-thermal model of the machine. This allowed us to check whether the temperature in sensitive elements does not exceed the permissible limits. The analysis took into account the effect of the color and the smoothness of the machine housing on the temperature distribution in its interior. The influence of design on the temperature distribution and distribution of hot spots was tested. Two topologies are studied considering magnet mounted on the rotor surface or buried in the rotor soft magnetic core. The simulation results were compared with measurements made on a prototype.https://doi.org/10.1515/phys-2019-0065permanent magnet machinesthermal analysisfluid dynamicshigh temperature84.50.+d47.55.pb51.30.+i47.27.e-07.55.db75.50.ww |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Komeza Krzysztof Lefik Marcin Roger Daniel Juszczak Ewa Napieralska Elmadah Hamed Napieralski Piotr Takorabet Noureddine |
spellingShingle |
Komeza Krzysztof Lefik Marcin Roger Daniel Juszczak Ewa Napieralska Elmadah Hamed Napieralski Piotr Takorabet Noureddine High Temperature Permanent Magnet Synchronous Machine Analysis of Thermal Field Open Physics permanent magnet machines thermal analysis fluid dynamics high temperature 84.50.+d 47.55.pb 51.30.+i 47.27.e- 07.55.db 75.50.ww |
author_facet |
Komeza Krzysztof Lefik Marcin Roger Daniel Juszczak Ewa Napieralska Elmadah Hamed Napieralski Piotr Takorabet Noureddine |
author_sort |
Komeza Krzysztof |
title |
High Temperature Permanent Magnet Synchronous Machine Analysis of Thermal Field |
title_short |
High Temperature Permanent Magnet Synchronous Machine Analysis of Thermal Field |
title_full |
High Temperature Permanent Magnet Synchronous Machine Analysis of Thermal Field |
title_fullStr |
High Temperature Permanent Magnet Synchronous Machine Analysis of Thermal Field |
title_full_unstemmed |
High Temperature Permanent Magnet Synchronous Machine Analysis of Thermal Field |
title_sort |
high temperature permanent magnet synchronous machine analysis of thermal field |
publisher |
De Gruyter |
series |
Open Physics |
issn |
2391-5471 |
publishDate |
2019-11-01 |
description |
The subject of the paper is a three-dimensional analysis of a coupled fluid-thermal and electromagnetic field in permanent magnet synchronous machine that can work at very high temperatures. To obtain the distribution of the airflow and temperature we employed the coupled fluid-thermal model of the machine. This allowed us to check whether the temperature in sensitive elements does not exceed the permissible limits. The analysis took into account the effect of the color and the smoothness of the machine housing on the temperature distribution in its interior. The influence of design on the temperature distribution and distribution of hot spots was tested. Two topologies are studied considering magnet mounted on the rotor surface or buried in the rotor soft magnetic core. The simulation results were compared with measurements made on a prototype. |
topic |
permanent magnet machines thermal analysis fluid dynamics high temperature 84.50.+d 47.55.pb 51.30.+i 47.27.e- 07.55.db 75.50.ww |
url |
https://doi.org/10.1515/phys-2019-0065 |
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