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157322

Investigation and Comparative Study of 12/16 C-core and Conventional Radial Flux Switched Reluctance Motor under Coil Fault Conditions.

Article

Last updated: 22 Jan 2023

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Tags

Electrical Engineering

Abstract

Owing to the large quantity of conventional passenger vehicles with internal combustion engines, energy shortages and environmental pollution are now Seen as important problems. Electric vehicles (EVs) have the best energy savings and zero emission vehicles option. Radial Flux Switched Reluctance Motor (RFSRM), and Axial Flux Switched Reluctance Motor (AFSRM) have shown promise in wheel motor design of electric vehicles. While C-core is modelled, giving advantages of both radial and axial flux SRM. Based on a three-phase 12/16 pole structure, C-core RFSRM and conventional RFSRM are investigated and compared under different types of coils failures, while their impact on the average torque for both motors is presented. Comparisons of average torques at different coils` fault conditions between C-Core RFSRM, and conventional RFSRM have been done by finite element analysis (FEM). The segmental structure of C-Core RFSRM and its independent separate magnetic path for its coils, give it the superiority more than conventional RFSRM for in-wheel electric vehicle application.

DOI

10.21608/bfemu.2021.157322

Keywords

Switched Reluctance Motor, C-Core SRM, Radial Flux SRM, Axial flux SRM Fault analysis, Electrical vehicle, Finite Element Analysis, failure coil

Authors

First Name

Mohamed

Last Name

Mahmoud Sedky

MiddleName

Moustafa

Affiliation

Electrical Power Engineering Department., Faculty of Engineering., Alexandria University., Alexandria., Egypt.

Email

mohamed.sedky@alexu.edu.eg

City

Alexandria

Orcid

0000-0003-3919-7800

Volume

46

Article Issue

1

Related Issue

20965

Issue Date

2021-03-01

Receive Date

2020-11-09

Publish Date

2021-03-17

Page Start

22

Page End

30

Print ISSN

1110-0923

Online ISSN

2735-4202

Article File

BFEMU_Volume 46_Issue 1_Pages 22-30.pdf

PDF . 2.0MB

Link

https://bfemu.journals.ekb.eg/article_157322.html

Detail API

https://bfemu.journals.ekb.eg/service?article_code=157322

Order

25

Type

Research Studies

Type Code

1,205

Publication Type

Journal

Publication Title

MEJ. Mansoura Engineering Journal

Publication Link

https://bfemu.journals.ekb.eg/

MainTitle

-

Details

Type

Article

Created At

22 Jan 2023