Journal article

Integrating a heat sink into concentrated wound coils to improve the current density of an axial flux, direct liquid cooled electrical machine with segmented stator

Abstract:: This paper proposes a new construction with a heat sink integrated into the concentrated wound coils of an axial flux, direct liquid cooled electrical machine. A preliminary assessment of the effectiveness of the heat sink and its position is made using computational fluid dynamics. Lumped-parameter thermal models are also developed, thus allowing accurate comparison of the thermal profile of the two constructions. Following experimental calibration of the model and thermal validation, the temperature profile of the new construction is compared to that from a traditional concentrated wound coil. The model is then used to estimate the effect of the new construction on the current density of the stator windings. The paper demonstrates that for an axial flux motor run at a typical operating point of 300 Nm and 1500 rpm, the maximum temperature is reduced by 87 K. The current density can be increased by 140% before the limiting maximum coil temperature is achieved.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Camilleri, R., & McCulloch, M. D. (2021). Integrating a heat sink into concentrated wound coils to improve the current density of an axial flux, direct liquid cooled electrical machine with segmented stator. Energies, 14(12).

MLA Style

Camilleri, R., and M. D. McCulloch. “Integrating a Heat Sink into Concentrated Wound Coils to Improve the Current Density of an Axial Flux, Direct Liquid Cooled Electrical Machine with Segmented Stator.” Energies, vol. 14, no. 12, MDPI, 2021.

Chicago Style

Camilleri, R, and MD McCulloch. 2021. “Integrating a Heat Sink into Concentrated Wound Coils to Improve the Current Density of an Axial Flux, Direct Liquid Cooled Electrical Machine with Segmented Stator.” Energies 14 (12).
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Files:: Camilleri_and_McCulloch_2021_Integrating_a_heat.pdf

(Preview, Version of record, pdf, 24.5MB, Terms of use)

Publisher copy:: 10.3390/en14123619

Authors

+ Camilleri, R More by this author

Role:: Author

+ McCulloch, MD More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Engineering Science
Oxford college:: Christ Church
Role:: Author
ORCID:: 0000-0001-5378-1128

Publisher:: MDPI
Journal:: Energies More from this journal
Volume:: 14
Issue:: 12
Article number:: 3619
Publication date:: 2021-06-17
Acceptance date:: 2021-05-20
DOI:: 10.3390/en14123619
EISSN:: 1996-1073

Language:: English
Keywords:: electric machines

cooling

thermal modeling

FFR
Pubs id:: 1183574
Local pid:: pubs:1183574
Deposit date:: 2022-08-24

Terms of use

Copyright holder:: Camilleri and McCulloch
Copyright date:: 2021
Rights statement:: © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/).

Licence:: CC Attribution (CC BY)

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