Disintegration of power grid as part of the task of increasing functionality of electric system

When operating electric power systems there are often situations in which the power systems operation is inevitable with reduced reliability or, otherwise, with incomplete functionality where functionality is the set of functions provided by the power system and the quality of their performance. Wit...

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Bibliographic Details
Main Authors: Mukatov, Bekzhan, Fishov, Alexander
Format: Conference Proceeding
Language:English
Subjects:
Automatic control
Disintegration
Electric power
Electric power distribution
Electric power systems
Electricity distribution
Networks
Power plants
Survivability
Synchronism
Task complexity
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Summary:When operating electric power systems there are often situations in which the power systems operation is inevitable with reduced reliability or, otherwise, with incomplete functionality where functionality is the set of functions provided by the power system and the quality of their performance. With the mass input of distributed small generation in grids of almost all voltage classes it is necessary to solve the problem of ensuring stability in previously passive distribution networks. The traditional approach based on the “struggle” to maintain synchronism between power plants in the distribution networks is associated with a number of difficulties, which causes to apply another approach to control modes in distribution networks. Complication of the power grid, automatic devices, increase in possible variations of modes, and tendency to maximize the use of production assets lead to an increase in the complexity of tasks solved by dispatch centers. In this regard, it is important to note that availability of cascade failures in power systems speaks of the urgency of the task of ensuring the survivability of energy supply systems both globally and locally. The paper shows how disintegration of the power grid can solve the task of ensuring the functionality of traditional power systems and help to create favorable conditions for distributed small generation integration into the integrated electric power system.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/20172503009