Кластерні та репрезентативні моделі генеруючих потужностей гнучких енергосистем з малими модульними реакторами

Кластерні та репрезентативні моделі генеруючих потужностей гнучких енергосистем з малими модульними реакторами

The analysis of existing mathematical models for power systems with large shares of electricity production by NPP and renewable  energy  sources generation was carried out. The low level of adequacy is shown for power system models used in the problems of long-term development plan...

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Bibliographic Details
Date:2024
Main Authors: Saukh, S., Borysenko, А.
Format: Article
Language:English
Published: State Scientific and Technical Center for Nuclear and Radiation Safety 2024
Online Access:https://nuclear-journal.com/index.php/journal/article/view/1094
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Journal Title:Nuclear and Radiation Safety

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Nuclear and Radiation Safety
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Summary:The analysis of existing mathematical models for power systems with large shares of electricity production by NPP and renewable  energy  sources generation was carried out. The low level of adequacy is shown for power system models used in the problems of long-term development planning for generating plants with nuclear fuel and renewable  energy  sources. In order to plan the development of power systems at the current stage of technological changes in the electric power industry, new models of load modes for NPP units and generating equipment with renewable  energy  sources are proposed. Dispatching models with a cyclic forecast period were used to ensure the adequacy unit commitment models for NPP units and energy storage systems. Representative models of solar and wind power plants are presented, which, together with cluster models of NPP units and energy storage systems, solve the issue on the adequacy of power system modeling in current conditions of their development. The results of computational experiments with the proposed models for generating equipment of the flexible grid are presented. The adequacy of cluster mathematical models of NPP units and energy storage systems, as well as representative models of solar and wind power plants generating equipment is experimentally confirmed.

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