Investigation of the Effect of The Temperature and Magnetization Pattern on Flux Density, Instantaneous Torque, Unbalanced Magnetic Forces of a Surface Inset PMM - Publication - Bridge of Knowledge

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Investigation of the Effect of The Temperature and Magnetization Pattern on Flux Density, Instantaneous Torque, Unbalanced Magnetic Forces of a Surface Inset PMM

Abstract

Electrical machines utilized in domestic applications such as ceiling fans should have low losses and cost. Permanent magnets are used instead of rotor excitation to reduce losses. Therefore, not only the losses of the rotor winding are eliminated, but also the efficiency of the machine is increased. A surface inset consequent pole (SICP) machine has also been used to reduce costs. Because less magnets are utilized in this structure. The main problem is the affecting the residual flux density from temperature. In this paper, the SICP is analyzed by two-dimensional method, then magnetic flux density, Back-EMF, instantaneous torque and unbalanced magnetic forces are calculated. In this research, either the effect of temperature changes on the mentioned cases has been investigated, or two types of magnetization patterns include radial and parallel have been considered.

Citations

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Authors (5)

  • Photo of  Ahmed Abbas

    Ahmed Abbas

  • Photo of Dr hab. inż. Atif Iqbal

    Atif Iqbal Dr hab. inż.

  • Photo of  A. Hosseinpour

    A. Hosseinpour

  • Photo of  Mohammad Shahabuddin

    Mohammad Shahabuddin

  • Photo of  Ersan Kabalci

    Ersan Kabalci

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Keywords

Details

Category:
Conference activity
Type:
publikacja w wydawnictwie zbiorowym recenzowanym (także w materiałach konferencyjnych)
Language:
English
Publication year:
2022
Bibliographic description:
Abbas A., Iqbal A., Hosseinpour A., Shahabuddin M., Kabalci E.: Investigation of the Effect of The Temperature and Magnetization Pattern on Flux Density, Instantaneous Torque, Unbalanced Magnetic Forces of a Surface Inset PMM// / : , 2022,
DOI:
Digital Object Identifier (open in new tab) 10.1109/gpecom55404.2022.9815827
Verified by:
Gdańsk University of Technology

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