Design and Electromagnetic Analysis of Brushless Salient Pole Switching Flux Synchronous Generator with DC Auxiliary Field Winding for Wind Energy Converter Systems

Design and Electromagnetic Analysis of Brushless Salient Pole Switching Flux Synchronous Generator with DC Auxiliary Field Winding for Wind Energy Converter Systems

Due to the depletion of fossil resources, employing renewable energies has been increased and experienced significant growth in recent years. Among these long-lasting sources, Wind energy stands out as a superior renewable energy source for energy supply in the entire world due to its availability a...

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Bibliographic Details
Published in:2023 31st International Conference on Electrical Engineering (ICEE) pp. 160 - 166
Main Authors: Hamed Bibak, Seyed, Hossein Mousavi, Mohammad, Geravandi, Moslem
Format: Conference Proceeding
Language:English
Published: IEEE 09-05-2023
Subjects:
Auxiliary Field Winding
Brushless Induction Generator
Finite Element Analysis
Generators
Renewable energy sources
Rotors
Salient Pole Machine
Stator windings
Synchronous generators
Wind energy
Windings
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Summary:Due to the depletion of fossil resources, employing renewable energies has been increased and experienced significant growth in recent years. Among these long-lasting sources, Wind energy stands out as a superior renewable energy source for energy supply in the entire world due to its availability and continuity. The specific generators used in wind turbines, such as doubly-fed generators, have dominated wind turbines due to their low cost. But the main issue associated with these types of generators is their sensitivity to voltage drop. In fact, with the occurrence of faults within the grid and the resulting voltage drop, the current on the stator side increases and due to the connection between the stator and the rotor, this current is transferred to the rotor leading to utilizing complex and expensive electronic power converters. In this paper, the design and electromagnetic analysis of brushless salient pole induction generator with direct current auxiliary field winding is investigated. On the proposed stator structure, in addition to the phase windings, there are also field windings while there are no windings placed on the rotor. The proposed structure can easily manage the flux through the simple control of the direct current of the field winding. This way, generator output voltage is effectively controlled. The analysis and simulation results guarantee the suggested structure.
ISSN:2642-9527
DOI:10.1109/ICEE59167.2023.10334681