Your search keyword '"Shanshal, Abdullah"' showing total 3 results

1. Performance improvement of squirrel cage induction motor: A review paper.

Author

Esam, Hiba, Ali, Ahmed J., and Shanshal, Abdullah K.

Subjects

SQUIRREL cage motors, INDUCTION motors, FINITE element method, MAGNETIC flux, MACHINE performance

Abstract

Nowadays, induction machines can be considered the backbone of various industrial applications due to the many characteristics such as rigidity, simplicity, high reliability, and low maintenance that can be manufactured for a long time. However, poor efficiency and power factor and increased amounts of torque ripple and losses significantly impact the performance and hence its efficiency. Therefore, in order to improve the performance of induction machines, the special design topology for stator and rotor configurations must be investigated and correctly estimated. This paper presents the analysis of the variable geometries of the cage's rotating bars. More specifically, the influence of dimensions and positions, as well as the shapes of the rotor rods, have a significant impact on the dynamic performance (developed torque, starting torque, ripple torque, starting current, power factor, harmonics, output power, and efficiency) are investigated. The Finite Element Method (FEM) is used to create the optimum designs as well as calculations are used to optimize the shapes of rotor slots in order to improve starting performance characteristics such as starting current, initial torque, magnetic flux connection under starting conditions, and efficiency. Furthermore, the characteristic of the manufacturing material of the rotor are examined, and methods to reduce losses for an induction motor to enhance efficiency are examined. This paper focuses on the squirrel cage induction motor (SCIM). [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of rotor bars position on the performance of cage rotor induction motor using finite element method.

Author

Esam, Hiba, Ali, Ahmed J., and Shanshal, Abdullah K.

Subjects

INDUCTION motors, INDUCTION machinery, FINITE element method, SQUIRREL cage motors, ROTORS

Abstract

Squirrel cage induction motor (SCIM) plays an important role in industrial applications thanks to its hardness, durability, and ease of design. With all these advantage researches are still being conducted to improve the performance of the induction motor because it suffers from problems such as low power factor as well as ripple torque and low efficiency. the main objective of this paper is to discuss the increasing of the starting torque and decreasing the ripple torque as well as increasing the efficiency of the squirrel cage induction motor based on specific methodologies carried out on the rotor bar by changing its position in the horizontal and vertical direction as well as implementing the skewing effect on rotor bar and analyzing the impact of each of these changes on the performance and efficiency by using finite element method (FEM). [ABSTRACT FROM AUTHOR]

Published

2023

3. High-Performance Ferrite Permanent Magnet Brushless Machines.

Author

Shanshal, Abdullah, Hoang, Khoa, and Atallah, Kais

Subjects

PERMANENT magnets, AIR gap flux, SOFT magnetic materials, FERRITES, MACHINING, ACTINIC flux

Abstract

The performance of a brushless permanent magnet machine topology equipped with axially and circumferentially magnetized ferrite permanent magnets is presented. Simulation studies show that for smaller ratios of axial length to active length, air-gap flux densities in excess of 1 T can be achieved, resulting in significant improvements in torque production and efficiency. A prototype machine is manufactured, and test results confirm the predictions of the EMF and the static torque. [ABSTRACT FROM AUTHOR]

Published

2019