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Abstract

This paper takes the demand of high power density motor for new energy vehicles as the application background. In order to solve the problem of low power density of radial flux motor, a novel direct cooling yokeless and segmented armature axial flux machine (YASA) is proposed. The thermal-fluid multi-physical coupling field of YASA motor has been studied by combining numerical analysis and computational fluid dynamics (CFD). On this basis, the internal relationship among the output power, flow resistance and structural parameters of the cooling system has been studied, and then the parameters of cooling system has been multi-objectives optimized. On the premise of meeting the pressure loss of the cooling system, the heat transfer efficiency has been improved, and then the output power of the motor has been increased.

Keywords

YASA cooling system power density CFD pressure loss

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References

Hoon

K.K.

Hwan

J.B.

and Kyun

W.D.

, Optimal overhang structure considering overhang effects in the axial flux permanent magnet motor, International Journal of Applied Electromagnetics Mechanics 58(2) (2018), 227–237.

Bisschop

J.D.

and Sergeant

, Analysis and selection of harmonics sensitive to demagnetization faults intended for condition monitoring of double rotor axial flux permanent magnet synchronous machines, IET Electric Power Applications 12(4) (2018), 486–493.

Cao

G.H.

Wang

and Huang

J.L.

, Design and optimization of cogging torque in stator permanent magnet axial-field flux-switched hybrid excitation motor based on RSM-CS algorithm, International Journal of Applied Electromagnetics Mechanics 56(3) (2018), 49–61.

Zhang

Seidler

Dierken

and Doppelbauer

, Development of a yokeless and segmented armature axial flux machine, IEEE Transactions on Industrial Electronics 63(4) (2016), 2062–2071.

Cao

Y.J.

Tao

S.Q.

and Cai

, Magnetic field analytical solution and electromagnetic force calculation of coreless stator axial-flux permanent-magnet machines, International Journal of Applied Electromagnetics Mechanics 54(1) (2017), 93–105.

Gerlando

A.D.

Foglia

G.M.

and Iacchetti

M.F.

, Parasitic currents in structural paths of YASA axial flux PM machines: Estimation and tests, IEEE Transactions on Energy Conversion 31(2) (2016), 750–758.

Huang

Y.K.

Guo

B.C.

and Guo

Y.G.

, Analytical modeling of axial flux PM machines with eccentricities, International Journal of Applied Electromagnetics Mechanics 53(4) (2017), 757–777.

Dwivedi

Singh

S.K.

and Srivastava

R.K.

, Analysis and performance evaluation of axial flux permanent magnet motors, IEEE Transactions on Industry Applications 54(2) (2018), 1765–1772.

Yazdan

and Kwon

, Electromagnetic design and performance analysis of a two-phase AFPM BLDC motor for the only-pull drive technique, IET Electric Power Applications 12(7) (2018), 999–1005.

10.

Zhang

Seidler

Dierken

and Doppelbauer

, Development of a yokeless and segmented armature axial flux machine, IEEE Transactions on Industrial Electronics 63(4) (2016), 2062–2071.

11.

Q.F.

Zhang

X.M.

Chen

Huang

X.Y.

Y.Y.

and Zhu

Z.Q.

, Modeling and investigation of thermal characteristics of a water-cooled permanent-magnet linear motor, IEEE Transactions on Industry Applications 51(3) (2015), 2086–2096.

Design of a new type yokeless and segmented armature axial flux machine

Abstract

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References