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http://148.72.244.84/xmlui/handle/xmlui/12865
Title: | Dynamic Simulation of Three Phase Induction Machines Based on Reduced Order Model for Power Systems Analysis |
Authors: | Assama S. Jafar Ghassan Abdullah Salman Ammar Issa Ismael |
Keywords: | Induction Machines Park’s Transformation Machines Simulation Full Order Model |
Issue Date: | 1-Jun-2023 |
Publisher: | University of Diyala – College of Engineering |
Citation: | https://djes.info/index.php/djes/article/view/112 |
Abstract: | Induction machines are a crucial type of electrical equipment utilized as motors in various industries and single-phase forms in household applications. They make up more than 80% of the industrial motors used today. This paper presents a dynamic simulation of three-phase induction machines based on the (d-q) model, providing a clear and easy-to-understand explanation of the behavior of the induction motor in the synchronous reference frame. The simulation is implemented using SIMULINK/MATLAB software, and full-order model analysis is conducted for transient analysis. However, modeling induction machines as part of power system analysis can be done with a less detailed model than the full-order one. In this paper, a reduced-order model is employed to simulate the induction motor using MATLAB/SIMULINK. The results of the reduced-order system and the full-order framework are compared to investigate the model's limits, and the computational benefits of saving time during large power system simulations justify the relative decrease in accuracy. The use of a reduced-order model results in a significant reduction in computation time when simulating large and very large-scale power systems, with a much higher accuracy in transient analysis than the conventional steady-state model. |
URI: | http://148.72.244.84:8080/xmlui/handle/xmlui/12865 |
ISSN: | 1999-8716 |
Appears in Collections: | مجلة ديالى للعلوم الهندسية / Diyala Journal of Engineering Sciences (DJES) |
Files in This Item:
File | Description | Size | Format | |
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12-1122.pdf | 547.08 kB | Adobe PDF | View/Open |
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