Demagnetization Analysis for Halbach Array Configurations in Electrical Machines

Galea, Michael; Papini, Luca; Zhang, He; Gerada, Chris; Hamiti, Tahar

doi:10.1109/tmag.2015.2429645

Cited by 67 publications

(28 citation statements)

References 20 publications

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“…It is seen that they are higher in Halbach than SMPM machines. The temperature effects were investigated on performance of Hallbach Machine in (Galea, et al, 2015). In the current study, this impact can be seen from the results for 50 o C and 80 o C at x2 loading given in Table VIII.…”

Section: Halbach1mentioning

confidence: 87%

Design optimization of Halbach array permanent magnet motor to achieve sensorless performance using genetic algorithm

Caner

Gerada

Asher

et al. 2016

COMPEL

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Tolga (2016) Design optimization of Halbach array permanent magnet motor to achieve sensorless performance using genetic algorithm. COMPEL -The international journal for computation and mathematics in electrical and electronic engineering, 35 (5 A note on versions:The version presented here may differ from the published version or from the version of record. If you wish to cite this item you are advised to consult the publisher's version. Please see the repository url above for details on accessing the published version and note that access may require a subscription.For more information, please contact eprints@nottingham.ac.uk Structured Abstract:Purpose -This work presents an investigation of Halbach array effects in surface mounted permanent magnet machine (SMPM) in terms of both self-sensing and torque capabilities. A comparison between a conventional SMPM, which has radially magnetized rotor, and a Halbach machine has been carried out.Design/methodology/approachThe geometric parameters of the two machines have been optimized using GA with looking pareto. The performance of the machines' geometry has been calculated by finite element analysis (FEA) software, and two parametric machine models have been realized in Matlab coupled with the FEA and GA toolboxes. Outer volume of the machine, thus copper loss per volume has been kept constant. The pareto front approach, which simultaneously considers looks two aims, has been used to provide the trade-off between the torque and sensorless performances.Findings -The two machines' results have been compared separately for each loading condition. According to the results, the superiority of the Halbach machine has been shown in terms of sensorless capability compromising torque performance. Additionally, this paper shows that the selfsensing properties of a SMPM machine should be considered at the design stage of the machine.Originality/value -A Halbach machine design optimisation has been presented using pareto optimal set which provides a trade-off comparison between two aims without using weightings. These are sensorless performance and torque capability. There is no such a work about sensorless capability of the Halbach type SMPM in the literature.

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Section: Halbach1mentioning

confidence: 87%

Design optimization of Halbach array permanent magnet motor to achieve sensorless performance using genetic algorithm

Caner

Gerada

Asher

et al. 2016

COMPEL

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“…12. One of the main challenges with PM machine is the requirement to ensure that no partial or full demagnetization occurs for all operating conditions [15]. Thus a demagnetization prediction analysis is performed using finite element simulation.…”

Section: Machine Performancementioning

confidence: 99%

Design and optimization of a high power density machine for flooded industrial pump

Al-Timimy¹,

Degano²,

Giangrande³

et al. 2016

2016 XXII International Conference on Electrical Machines (ICEM)

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A note on versions:The version presented here may differ from the published version or from the version of record. If you wish to cite this item you are advised to consult the publisher's version. Please see the repository url above for details on accessing the published version and note that access may require a subscription.For more information, please contact eprints@nottingham.ac.uk Φ Abstract --This paper presents the design optimization procedure of a high power-density, permanent magnet synchronous machine for industrial pump applications. The designed machine drives an electric, oil flooded pump. In order to achieve higher torque-density, a fractional slot machine (8 poles, 9 slots) with double layer (concentrated) winding has been selected after a preliminary trade-off study, which considered several slot/pole combinations and winding configurations. The developed machine provides low torque ripple and short end windings, which contribute to lower axial length and higher efficiency. The electromagnetic performances have been evaluated by using finite element method and the lamination geometry has been optimized through a genetic. The final results are presented highlighting the achieved design targets.Index Terms-PMSM, high power density machine, finite element method, Genetic Algorithm (GA) optimization.

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“…This arrangement led to improve the air gap flux density with a more sinusoidal waveform which results in a more sinusoidal back-EMF, a lower torque ripple and lower iron losses, resulting in a higher torque [2,12]. Also, with Halbach arrays, other aspects of the machine, such as the rotor yoke can be significantly reduced [13]. The drawbacks related to this arrangement are the higher cost and complexity of manufacturing [2].…”

Section: B Changing the Magnetization Structure Of The Pmmentioning

confidence: 99%

Trade-off analysis and design of a high power density PM machine for flooded industrial pump

Al-Timimy

Calzo

et al. 2016

IECON 2016 - 42nd Annual Conference of the IEEE Industrial Electronics Society

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Abstract-This paper presents the trade-off analysis and design of a high power-density machine for industrial pump applications. The developed permanent magnet synchronous machine drives an electric, oil flooded pump. Different slot/pole combination and winding configuration have been investigated in order to identify the optimal combination that satisfies the electromagnetic and thermal constraint while keeping the losses as small as possible. Several strategies such as the use of the Cobalt iron material for the stator core lamination and the adoption of Halbach array have been investigated in this work to improve the performance capabilities of the designed machine. The electromagnetic performances have been evaluated by using a finite element method. Thermal behaviour has been determined using a lumped parameter network. The outcome of the thermal analysis helped to identify the optimal cooling configurations. The final results are presented highlighting the achieved design targets.

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Demagnetization Analysis for Halbach Array Configurations in Electrical Machines

Cited by 67 publications

References 20 publications

Design optimization of Halbach array permanent magnet motor to achieve sensorless performance using genetic algorithm

Design optimization of Halbach array permanent magnet motor to achieve sensorless performance using genetic algorithm

Design and optimization of a high power density machine for flooded industrial pump

Trade-off analysis and design of a high power density PM machine for flooded industrial pump

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