Design of an Axial-Flux Permanent Magnet machine for an in-wheel direct drive application

Koen Bastiaens; J.W. (Helm) Jansen; Sultan Jumayev; Elena A. Lomonova

Design of an Axial-Flux Permanent Magnet machine for an in-wheel direct drive application

Koen Bastiaens, J.W. (Helm) Jansen, Sultan Jumayev, Elena A. Lomonova

Electromechanics and Power Electronics

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This paper concerns the optimization and comparison of six different axial-flux permanent magnet (AFPM) machine topologies for an in-wheel direct drive application. The objective of the optimization is to reach maximum power density, which is of essence for an in-wheel motor. The machine topologies are optimized using the 3D analytical charge model in combination with a thermal equivalent circuit model for calculation of the temperature rise and thermal dependency of the main electromagnetic losses. All investigated AFPM machine topologies are variations of the internal stator twin external rotor AFPM machine. The resulting designs are compared based on their power density, weight, efficiency, and permanent magnet volume. The distributed winding topology with a quasi-Halbach magnet arrangement shows the best performance within the optimization problem.

Originele taal-2	Engels
Aantal pagina's	1
Status	Niet gepubliceerd - 2017
Evenement	2017 IEEE International Electric Machines & Drives Conference(IEMDC2017), 21 -24 May 2017, Miami, FL, USA - Hilton Miami Downtown, Miami, Verenigde Staten van Amerika Duur: 21 mei 2017 → 24 mei 2017 https://www.ieee.org/conferences_events/conferences/conferencedetails/index.html?Conf_ID=37070

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Congres	2017 IEEE International Electric Machines & Drives Conference(IEMDC2017), 21 -24 May 2017, Miami, FL, USA
Verkorte titel	IEMDC2017
Land	Verenigde Staten van Amerika
Stad	Miami
Periode	21/05/17 → 24/05/17
Internet adres	https://www.ieee.org/conferences_events/conferences/conferencedetails/index.html?Conf_ID=37070

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Best Poster Award 2017
Bastiaens, Koen (Ontvanger), 2017
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abstract = "This paper concerns the optimization and comparison of six different axial-flux permanent magnet (AFPM) machine topologies for an in-wheel direct drive application. The objective of the optimization is to reach maximum power density, which is of essence for an in-wheel motor. The machine topologies are optimized using the 3D analytical charge model in combination with a thermal equivalent circuit model for calculation of the temperature rise and thermal dependency of the main electromagnetic losses. All investigated AFPM machine topologies are variations of the internal stator twin external rotor AFPM machine. The resulting designs are compared based on their power density, weight, efficiency, and permanent magnet volume. The distributed winding topology with a quasi-Halbach magnet arrangement shows the best performance within the optimization problem.",

author = "Koen Bastiaens and Jansen, {J.W. (Helm)} and Sultan Jumayev and Lomonova, {Elena A.}",

year = "2017",

language = "English",

note = "2017 IEEE International Electric Machines & Drives Conference(IEMDC2017), 21 -24 May 2017, Miami, FL, USA, IEMDC2017 ; Conference date: 21-05-2017 Through 24-05-2017",

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}

Design of an Axial-Flux Permanent Magnet machine for an in-wheel direct drive application. / Bastiaens, Koen ; Jansen, J.W. (Helm); Jumayev, Sultan ; Lomonova, Elena A.

2017. Postersessie gepresenteerd op 2017 IEEE International Electric Machines & Drives Conference(IEMDC2017), 21 -24 May 2017, Miami, FL, USA, Miami, Verenigde Staten van Amerika.

Onderzoeksoutput: Bijdrage aan congres › Poster

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T1 - Design of an Axial-Flux Permanent Magnet machine for an in-wheel direct drive application

AU - Bastiaens, Koen

AU - Jansen, J.W. (Helm)

AU - Jumayev, Sultan

AU - Lomonova, Elena A.

PY - 2017

Y1 - 2017

N2 - This paper concerns the optimization and comparison of six different axial-flux permanent magnet (AFPM) machine topologies for an in-wheel direct drive application. The objective of the optimization is to reach maximum power density, which is of essence for an in-wheel motor. The machine topologies are optimized using the 3D analytical charge model in combination with a thermal equivalent circuit model for calculation of the temperature rise and thermal dependency of the main electromagnetic losses. All investigated AFPM machine topologies are variations of the internal stator twin external rotor AFPM machine. The resulting designs are compared based on their power density, weight, efficiency, and permanent magnet volume. The distributed winding topology with a quasi-Halbach magnet arrangement shows the best performance within the optimization problem.

AB - This paper concerns the optimization and comparison of six different axial-flux permanent magnet (AFPM) machine topologies for an in-wheel direct drive application. The objective of the optimization is to reach maximum power density, which is of essence for an in-wheel motor. The machine topologies are optimized using the 3D analytical charge model in combination with a thermal equivalent circuit model for calculation of the temperature rise and thermal dependency of the main electromagnetic losses. All investigated AFPM machine topologies are variations of the internal stator twin external rotor AFPM machine. The resulting designs are compared based on their power density, weight, efficiency, and permanent magnet volume. The distributed winding topology with a quasi-Halbach magnet arrangement shows the best performance within the optimization problem.

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T2 - 2017 IEEE International Electric Machines & Drives Conference(IEMDC2017), 21 -24 May 2017, Miami, FL, USA

Y2 - 21 May 2017 through 24 May 2017

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Design of an Axial-Flux Permanent Magnet machine for an in-wheel direct drive application

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