Optimum Design of Slotted Axial Flux Internal Stator Motor Using Genetic Algorithm for Electric Vehicle

Gholamian, Seid Asghar; Ardebili, Mohammad; Abbaszadeh, K; Gholamian, Seyyed Akbar

doi:10.5121/ijsea.2011.2306

Cited by 8 publications

(9 citation statements)

References 10 publications

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“…Where, η is machine efficiency, m is number of phases of the machine, The quantity K the electrical power waveform factor, K incorporates the winding distribution factor K spanned by the salient poles of the machine (if any), N flux density in the air gap, f is the converter frequency, p is the machine pole pairs, diameter ratio for AFPM defined as D the diameter of the machine inner surface [1,7].…”

Section: High Magnetism Between Rotor and Stator Ismentioning

confidence: 99%

“…is machine efficiency, m is number of phases of the machine, The quantity K the electrical power waveform factor, K i is current waveform, K e is the EMF factor which incorporates the winding distribution factor K w and the per unit portion of the total air gap area spanned by the salient poles of the machine (if any), N ph is the number of turn per phase, Bg is the flux density in the air gap, f is the converter frequency, p is the machine pole pairs, AFPM defined as D i /D o , D o is the diameter of the machine outer surface, D the diameter of the machine inner surface [1,7]. can be written as…”

Section: Afpm Motorsmentioning

confidence: 99%

“…Where r µ is the recoil relative permeability of the magnet, B r is the residual flux density of the PM material, K d is the leakage flux factor, K c is the Carter factor, K f =B gpk /B g is the peak value corrected factor of air gap flux density in radial direction of the AFPM motor. These factors can be obtained using FEM analysis [1,5].…”

Section: Afpm Motorsmentioning

confidence: 99%

“…Among the various configurations of AFPM motors, double-sides disk type PM motors, has the most and best application especially in Electrical Vehicles. Disk type PM motors are designed with slotted stators and without slot (or slot-less), that the slot configuration has the high robustness and power density that without one [1], [6].…”

Section: Introductionmentioning

confidence: 99%

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Genetic Algorithm Application for Optimum Design of Three Phases Disk Type PM Motor

Yousefi¹,

Soleymani²,

Gholamian³

et al. 2012

IJCSA

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Permanent magnet Double-sided disk type PM motors (or axial flux PM-AFPM) are the most widely used types in different applications. In this paper, the equation related to the determination of design and dimensions of double-sided slotted axial flux motor with internal stator will be investigated. This paper presents a new method for optimum design disk type one-stator-two-rotor surface-mounted permanent magnet motor to achieve high power density. At the end of this paper, the results of optimum design dimensions of Double-sided disk type PM motors based on genetic algorithm is presented with high power density or low total volume.

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Section: High Magnetism Between Rotor and Stator Ismentioning

confidence: 99%

Section: Afpm Motorsmentioning

confidence: 99%

Section: Afpm Motorsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Genetic Algorithm Application for Optimum Design of Three Phases Disk Type PM Motor

Yousefi¹,

Soleymani²,

Gholamian³

et al. 2012

IJCSA

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show abstract

“…Double rotor permanent magnet motor has become a research topic especially for electric vehicle driving system, as this kind of motors can provide higher torque generation in comparison to the conventional interior permanent magnet motors [10]. Several kind of dual rotor motors of this sort have been reported in recent literatures, such as: (i) double-sided slotted axial flux motor having two outer permanent magnet rotors and one inner winding stator [11,12]; (ii) dual rotor motor consisting of an outer stator, inner wound rotor and outer permanent magnet rotor [13]; (ii) dual rotor motor consisting of double stator as well as double rotor for electric moving vehicle that structurally seems to be two independent motors integrated into one [9]; (iii) dual rotor motor consisting of one inner and one outer permanent magnet rotors and one winding stator at the centre [10]; (iv) dual rotor motor consisting of one inner and one outer permanent magnet rotor and one toroidally wound stator at the centre [14], and the like. There are also literatures on dual rotor induction motor [15,16].…”

Section: Introductionmentioning

confidence: 99%

A Novel Double Rotor without Stator Electric Motor: Theoretical and Functional Aspects

Roy¹

2017

JEES

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Conventional electromagnetic motor contains two components -stator and rotor. In this present case, both the components of an electromagnetic motor are allowed to remain free, i.e. both the components are allowed to rotate. Thus, there is no stationary stator in the mechanism. The mechanical output of the two counter rotating shafts is collected through a common transmission shaft via either gear mechanism or a combination of gear and belt mechanism. Although dual rotor counter rotating motor has been recently disclosed in an US Patent, the present one is an innovation designed to trap the maximum potentiality of such an electric motor. Depending upon the type and size of the motor, there will be a net increase in energy efficiency in between 25 to 125 per cent over their respective conventional variants. This has huge implication in the field of electrical power generation and consumption.

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Optimal design of a modular axial‐flux permanent‐magnet synchronous generator for gearless wind turbine applications

Ashrafzadeh,

Ghadimi,

Jabbari

et al. 2023

Wind Energy

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Air‐cored axial‐flux permanent‐magnet synchronous generators (AFPMSGs) are potential candidates for gearless direct‐coupled wind turbines (DCWTs) owing to providing high efficiency and power density. The design of a DCWT generator is so complicated since the generator cost, dimension, and weight affected by gear elimination. Therefore, it is essential to find an optimal AFPMSG design at rated conditions. In this paper, an accurate procedure for the optimal design of an air‐cored AFPMSG applicable for DCWTs is proposed. The genetic algorithm (GA) is used for multi‐objective design optimization to reach the optimal configuration as well as system dimension in order to decrease the weight, increase the power density and enhance the effectiveness of the generator. To validate the efficiency of the suggested optimization proceducer, a 30 kW AFPMSG has been considered as a case study. The results of optimization have been investigated by finite element analysis (FEA). A prototype generator is also fabricated, and the test results are offered and compared with the numerical study. The outcomes show that there exists an acceptable agreement between FEA and experimental outcomes with the error percentage about of 1.35%.

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Optimum Design of Slotted Axial Flux Internal Stator Motor Using Genetic Algorithm for Electric Vehicle

Cited by 8 publications

References 10 publications

Genetic Algorithm Application for Optimum Design of Three Phases Disk Type PM Motor

Genetic Algorithm Application for Optimum Design of Three Phases Disk Type PM Motor

A Novel Double Rotor without Stator Electric Motor: Theoretical and Functional Aspects

Optimal design of a modular axial‐flux permanent‐magnet synchronous generator for gearless wind turbine applications

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