Innovative 3D printed coil and cooling designs for weight-sensitive energy-saving electrical machine

Selema, Ahmed; Van den Abbeele, Joffrey; Ibrahim, Mohamed; Sergeant, Peter

Innovative 3D printed coil and cooling designs for weight-sensitive energy-saving electrical machine

Ahmed Selema (UGent) , Joffrey Van den Abbeele, Mohamed Ibrahim (UGent) and Peter Sergeant (UGent)

(2024) IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION. 10(3). p.5282-5293

Author

Ahmed Selema (UGent) , Joffrey Van den Abbeele, Mohamed Ibrahim (UGent) and Peter Sergeant (UGent)

Organization

Project

Multi-Material Additive Manufacturing for Electrical Machines with increased performance
Ultralight 3D Printed Electrical Machine Windings Featuring Scalability and High Performance (USP 3D)

Abstract

The performance of electrical machines is often limited by manufacturability challenges. With the emergence of additive manufacturing (AM) technology, new design solutions that were previously impossible using conventional production techniques are becoming applicable. This work addresses novel design possibilities in the manufacturing of machine windings. Using AM technology, a series of 3-D-printed coils are designed and prototyped for high-power density electrical machines. The power losses of these new coils are measured and compared with the conventional windings. The 3-D coil designs combine higher performance and easier manufacturability. Moreover, a new thermal management concept is introduced using novel AM-shaped profile coils with direct cooling channels featuring ridged surfaces. The cooling tubes have small grooves or ridges on their surface that create a series of indents, which help increase their surface area and improve their cooling efficiency. The dimensions of the proposed heat exchanger are optimized to achieve a good balance between the current density and the cooling performance. The investigation includes identifying suitable materials for both the coils and the heat exchanger that can enhance the electromagnetic and thermal performance of the electrical machine while achieving a lightweight structure. Finally, the experimental results demonstrate the effectiveness of the proposed approach in achieving significant improvements in performance and weight reduction. Compared to the conventional copper coils, the new design has twice the current carrying capacity with only 53% weight.

Keywords

Electrical and Electronic Engineering, Energy Engineering and Power Technology, Transportation, Automotive Engineering, Cooling, Three-dimensional displays, Windings, Copper, Heating systems, Stator windings, Fill factor (solar cell), 3-D printing, electrical machines, manufacturability, thermal management, MANUFACTURED HOLLOW CONDUCTORS, OPPORTUNITIES, WINDINGS

Downloads

Download

FINAL VERSION.pdf
- full text (Accepted manuscript)
- |
- open access
- |
- PDF
- |
- 6.73 MB

Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01HC7Q3FGAVTCM38DG525VEK65

MLA: Selema, Ahmed, et al. “Innovative 3D Printed Coil and Cooling Designs for Weight-Sensitive Energy-Saving Electrical Machine.” IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION, vol. 10, no. 3, 2024, pp. 5282–93, doi:10.1109/tte.2023.3322522.
APA: Selema, A., Van den Abbeele, J., Ibrahim, M., & Sergeant, P. (2024). Innovative 3D printed coil and cooling designs for weight-sensitive energy-saving electrical machine. IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION, 10(3), 5282–5293. https://doi.org/10.1109/tte.2023.3322522
Chicago author-date: Selema, Ahmed, Joffrey Van den Abbeele, Mohamed Ibrahim, and Peter Sergeant. 2024. “Innovative 3D Printed Coil and Cooling Designs for Weight-Sensitive Energy-Saving Electrical Machine.” IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION 10 (3): 5282–93. https://doi.org/10.1109/tte.2023.3322522.
Chicago author-date (all authors): Selema, Ahmed, Joffrey Van den Abbeele, Mohamed Ibrahim, and Peter Sergeant. 2024. “Innovative 3D Printed Coil and Cooling Designs for Weight-Sensitive Energy-Saving Electrical Machine.” IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION 10 (3): 5282–5293. doi:10.1109/tte.2023.3322522.
Vancouver: 1.
Selema A, Van den Abbeele J, Ibrahim M, Sergeant P. Innovative 3D printed coil and cooling designs for weight-sensitive energy-saving electrical machine. IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION. 2024;10(3):5282–93.
IEEE: [1]
A. Selema, J. Van den Abbeele, M. Ibrahim, and P. Sergeant, “Innovative 3D printed coil and cooling designs for weight-sensitive energy-saving electrical machine,” IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION, vol. 10, no. 3, pp. 5282–5293, 2024.

@article{01HC7Q3FGAVTCM38DG525VEK65,
  abstract     = {{The performance of electrical machines is often limited by manufacturability challenges. With the emergence of additive manufacturing (AM) technology, new design solutions that were previously impossible using conventional production techniques are becoming applicable. This work addresses novel design possibilities in the manufacturing of machine windings. Using AM technology, a series of 3-D-printed coils are designed and prototyped for high-power density electrical machines. The power losses of these new coils are measured and compared with the conventional windings. The 3-D coil designs combine higher performance and easier manufacturability. Moreover, a new thermal management concept is introduced using novel AM-shaped profile coils with direct cooling channels featuring ridged surfaces. The cooling tubes have small grooves or ridges on their surface that create a series of indents, which help increase their surface area and improve their cooling efficiency. The dimensions of the proposed heat exchanger are optimized to achieve a good balance between the current density and the cooling performance. The investigation includes identifying suitable materials for both the coils and the heat exchanger that can enhance the electromagnetic and thermal performance of the electrical machine while achieving a lightweight structure. Finally, the experimental results demonstrate the effectiveness of the proposed approach in achieving significant improvements in performance and weight reduction. Compared to the conventional copper coils, the new design has twice the current carrying capacity with only 53% weight.}},
  author       = {{Selema, Ahmed and Van den Abbeele, Joffrey and Ibrahim, Mohamed and Sergeant, Peter}},
  issn         = {{2332-7782}},
  journal      = {{IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION}},
  keywords     = {{Electrical and Electronic Engineering,Energy Engineering and Power Technology,Transportation,Automotive Engineering,Cooling,Three-dimensional displays,Windings,Copper,Heating systems,Stator windings,Fill factor (solar cell),3-D printing,electrical machines,manufacturability,thermal management,MANUFACTURED HOLLOW CONDUCTORS,OPPORTUNITIES,WINDINGS}},
  language     = {{eng}},
  number       = {{3}},
  pages        = {{5282--5293}},
  title        = {{Innovative 3D printed coil and cooling designs for weight-sensitive energy-saving electrical machine}},
  url          = {{http://doi.org/10.1109/tte.2023.3322522}},
  volume       = {{10}},
  year         = {{2024}},
}

Altmetric: View in Altmetric
Web of Science: Times cited:

Academic Bibliography

Innovative 3D printed coil and cooling designs for weight-sensitive energy-saving electrical machine

Downloads

Citation

Contents

Support

Contact