Математичні моделі керування активними аварійними регуляторами частоти та потужності в енергосистемах з потенційною інтеграцією вітрових та сонячних електростанцій. Пріоритетні напрямки

Математичні моделі керування активними аварійними регуляторами частоти та потужності в енергосистемах з потенційною інтеграцією вітрових та сонячних електростанцій. Пріоритетні напрямки

The rapid integration of renewable energy sources (RES), such as wind power plants (WPPs) and solar power plants (SPPs), into modern Integrated Power Systems (IPS) has introduced new challenges and opportunities for grid stability and control. One critical aspect of power system operation is the reg...

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Bibliographic Details
Date:2025
Main Author: Denysov, Viktor
Format: Article
Language:English
Published: General Energy Institute of the National Academy of Sciences of Ukraine 2025
Subjects:
відновлювані джерела енергії
інтегровані енергосистеми
стабільність та управління мережею
активні аварійні регулятори частоти та потужності
математичні моделі.
Online Access:https://systemre.org/index.php/journal/article/view/906
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Journal Title:System Research in Energy

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System Research in Energy
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Summary:The rapid integration of renewable energy sources (RES), such as wind power plants (WPPs) and solar power plants (SPPs), into modern Integrated Power Systems (IPS) has introduced new challenges and opportunities for grid stability and control. One critical aspect of power system operation is the regulation of controlling active emergency frequency and power regulators (EFPR). EFPR plays a pivotal role in this process, and its effective operation is increasingly dependent on advanced mathematical models that account for the dynamic and intermittent nature of RES. The article emphasizes the importance of interdisciplinary research, combining power system engineering, applied mathematics, and data science, to develop innovative solutions for the challenges of modern power systems. The development of advanced mathematical models for EFPRs is essential for ensuring the stability and reliability of power systems in the era of renewable energy. An overview of mathematical models and approaches used to control active emergency frequency and power regulators in power systems with potential participation of wind and solar power plants is presented. Priority areas for possible research and development are highlighted.

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