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Auteur principal: Hamarash, Ibrahim Ismael
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2502.03976
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author Hamarash, Ibrahim Ismael
author_facet Hamarash, Ibrahim Ismael
contents This paper presents for the first time a mathematical model for evaluating the Planned Kurdistan Regional Power System (KRPS) for its ability to maintain stability under small disturbances and fluctuations during normal operating conditions. To achieve this objective, practical field data, manufacture's datasheets, related IEEE task force reports have been used to build a complete mathematical model in MATLAB/SIMULINK/SimPowerSystem environment. New modules have been established and added to the platform wherever it does not support special type of elements. The model represents accurately all the power system components involved in physical phenomena of system dynamic oscillations. The model consists of 53 transmission lines, 35 nodes and 6 generating stations. The system is simulated under different configurations and settings; the dynamic behaviors associated with each configuration are recorded and analyzed accordingly.
format Preprint
id arxiv_https___arxiv_org_abs_2502_03976
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Small Signal Stability Analysis of Kurdistan Regional Power System
Hamarash, Ibrahim Ismael
Systems and Control
This paper presents for the first time a mathematical model for evaluating the Planned Kurdistan Regional Power System (KRPS) for its ability to maintain stability under small disturbances and fluctuations during normal operating conditions. To achieve this objective, practical field data, manufacture's datasheets, related IEEE task force reports have been used to build a complete mathematical model in MATLAB/SIMULINK/SimPowerSystem environment. New modules have been established and added to the platform wherever it does not support special type of elements. The model represents accurately all the power system components involved in physical phenomena of system dynamic oscillations. The model consists of 53 transmission lines, 35 nodes and 6 generating stations. The system is simulated under different configurations and settings; the dynamic behaviors associated with each configuration are recorded and analyzed accordingly.
title Small Signal Stability Analysis of Kurdistan Regional Power System
topic Systems and Control
url https://arxiv.org/abs/2502.03976