Analysis and simulation of salient pole synchronous generator with finite element method and blondel theory to enhance performance
Date
2022-12
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Federal University of Technology, Owerri
Abstract
Synchronous generators are the only means of converting mechanical energy to electrical energy for bulk electrical power generation. As a result of saturation in its electromagnetic
structure, prediction of its performance often involves approximations that seek to account for the effect of saturation. Therefore, it is necessary to develop an accurate method for prediction of the field patterns in magnetic structure to ensure precise performance evaluation. In order to compute the magnetizing reactance of salient-pole synchronous generator apart from using finite element method, a modified winding function approach was developed in this research, which utilize the actual winding distribution and the shape of the pole arc. This research seeks to utilize the finite element variational method (finite element method magnetics) for magnetostatic computation for magnetic field distribution in the air gap for cylindrical and salient-pole type generator. The comparative analysis of the magnetic field distribution is used to illustrate the Two Reaction Theory. The obtained results indicate magneto-motive force comparison of salient 4-pole and cylindrical rotor generator, which clearly demonstrate Andrew Blondel Theory (Two-Reaction Theory). ANSYS Maxwell also is utilized in this research to simulate and analyze salient-pole synchronous generator in order to evaluate the generator performance through electromagnetic field computation. The ANSYS Maxwell results include, moving torque, winding currents, magnetic flux linkages, induced voltages, self and mutual inductances, damper bar voltage/current and others characteristic of synchronous generator under no-load, load and three phase short circuit conditions. The results obtained agreed with the conventional acceptable parameters for the salient-pole synchronous generator.
Description
Doctoral thesis in "power system engineering". It contains tables, mathematical equations, graphs, diagrams and pictures.
Keywords
Salient – pole, inductance, generator, air-gap, Andrew blondel theory, department of electrical and electronic engineering
Citation
Okon, P. E. ( 2022). Analysis and simulation of salient pole synchronous generator with finite element method and blondel theory to enhance performance. {Unpublished Doctoral Thesis}, Federal University of Technology, Owerri.