Publication: Analysis of In-wheel asynchronous motor with conical geometry for electric vehicle
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Date
2018-04-01
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Abstract
The purpose of this study is to optimize the package geometry in wheel motors for an electric
vehicle. In this context, it is aimed to analyze and design in-wheel asynchronous motor with a conical
geometry for an electric vehicle. Thus, an asynchronous motor with a conical geometry and in-wheel
asynchronous motor with a radial flux have been evaluated by comparing performance against each other
within the package boundaries. An asynchronous motor design for the required performance requirements
was realized by using the Ansys RMXprt program. The package analysis for the designed asynchronous
motor was performed and the minimum and maximum package sizes for in-wheel asynchronous motor. The
motor with conical geometry which is designed as a tapered geometry in 3D according to the minimum and
maximum dimensions. In the Ansys Maxwell program, these 3 type motors were analyzed in terms of the
rated torque, the rated revolution, the starting torque, the breakdown torque, the power factor, the efficiency
and the magnetic flux on the rotor and the stator. It has been seen that every motor has advantages and
disadvantages in the study. In this context, an asynchronous motor with a conical geometry may provide
optimization for the desired properties.
Description
Keywords
Conical Motor, Finite Element Method, Electrical machines, Asynchronous motor, In-wheel motor
Citation
DEMİR U., AKÜNER M. C., "Analysis of In-Wheel Asynchronous Motor with Conical Geometry for Electric Vehicle", Journal of New Results in Science, cilt.7, sa.1, ss.29-37, 2018