Dr. ir. Ahmed Selema

Faculty of Engineering and Architecture > Department of Electromechanical, Systems and Metal Engineering

ORCID iD: 0000-0001-6476-3398
Bio (via ORCID): Ahmed Selema received the M.Sc. degree in electrical engineering from Menoufia University, Egypt in 2018. In 2024, he received his PhD degree in electromechanical engineering from Ghent University, Ghent, Belgium. Currently, he has been working as a research engineer in the Electrical Energy Lab (EELab) at Ghent University in a close collaboration with different industrial companies in the EU. He is also a Corelab Member in Flanders Make, the strategic research center for the manufacturing industry in Flanders, Belgium. His research interests include electrical machines and drives, electromagnetics, material characterization, energy-efficient motor design, machine losses & cooling, and additive manufacturing. In these areas, he has authored or co-authored many papers in leading journals.

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- PhD Thesis
Design of power-dense electrical machines enabled by additive manufacturing

Dr. ir. Ahmed Selema (UGent)

(2024)
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- Journal Article
Multiphysics topology optimization of aluminium and copper conductors for automotive electrical machines

Borja Lizarribar, Borja Prieto, Ahmed Selema (UGent) , Mohamed Ibrahim (UGent) , Peter Sergeant (UGent) , Gurutz Artetxe and Miguel Martínez-Iturralde

(2024) IEEE Transactions on Transportation Electrification. p.1-1
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- Journal Article
Production and characterisation of filament-based Material Extrusion (MEX) additively manufactured copper parts

Fankai Meng, Margherita Beretta (UGent) , Ahmed Selema (UGent) , Peter Sergeant (UGent) , Jozef Vleugels, Frederik Desplentere and Eleonora Ferraris

(2024) Procedia CIRP. 121. p.234-239
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Design and comparative analysis of dual rotor wound field excited flux switching generator for household DC microgrid system with rooftop wind turbine

Wasiq Ullah, Ahmed Selema (UGent) and Faisal Khan

(2024) APPLIED ENERGY. 357.
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- Journal Article
- A1
- open access
Winding loss suppression in inverter-fed traction motors via hybrid coil materials and configurations

Ahmed Selema (UGent) , Kotb Basem Tawfiq Albassioni, Mohamed Ibrahim (UGent) and Peter Sergeant (UGent)

(2023) APPLIED SCIENCES-BASEL. 13(20).
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- Journal Article
- A1
- open access
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)

(2023) IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION.
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- Journal Article
- A1
- open access
Material tradeoff of rotor architecture for lightweight low-loss cost-effective sustainable electric drivetrains

Ahmed Selema (UGent)

(2023) SUSTAINABILITY. 15(19).
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- Conference Paper
- P1
- open access
Novel 3D printed coils for high power density electrical machine and traction applications

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

(2023) 2023 IEEE International Electric Machines & Drives Conference (IEMDC).
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- Journal Article
- A1
- open access
Advanced manufacturability of electrical machine architecture through 3D printing technology

Ahmed Selema (UGent) , Mohamed Ibrahim (UGent) and Peter Sergeant (UGent)

(2023) MACHINES. 11(9).
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- Journal Article
- A1
- open access
Material engineering of 3D-printed silicon steel alloys for the next generation of electrical machines and sustainable electromobility

Ahmed Selema (UGent) , Margherita Beretta (UGent) , Mohamed Ibrahim (UGent) , Jo Verwimp, Marleen Rombouts, Jozef Vleugels, Leo Kestens (UGent) and Peter Sergeant (UGent)

(2023) JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS. 584.

Academic Bibliography

Dr. ir. Ahmed Selema

Design of power-dense electrical machines enabled by additive manufacturing

Multiphysics topology optimization of aluminium and copper conductors for automotive electrical machines

Production and characterisation of filament-based Material Extrusion (MEX) additively manufactured copper parts

Design and comparative analysis of dual rotor wound field excited flux switching generator for household DC microgrid system with rooftop wind turbine

Winding loss suppression in inverter-fed traction motors via hybrid coil materials and configurations

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

Material tradeoff of rotor architecture for lightweight low-loss cost-effective sustainable electric drivetrains

Novel 3D printed coils for high power density electrical machine and traction applications

Advanced manufacturability of electrical machine architecture through 3D printing technology

Material engineering of 3D-printed silicon steel alloys for the next generation of electrical machines and sustainable electromobility

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