An Innovative Adaptive Automated Complex for Protection Against Out-of-Step Conditions in a Power Plant

An analysis of the influence of changes in the power industry of Russia as well as throughout the world on the risk of out-of-step conditions accompanied by a qualitative assessment of their negative consequences is presented. The problem of preventing and eliminating out-of-step conditions is great...

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Published in:Power technology and engineering 2019, Vol.53 (2), p.240-247
Main Authors: Ilyushin, P. V., Mokeev, A. V., Narovlyanskii, V. G.
Format: Article
Language:English
Subjects:
Algorithms
Automation
Electric industries
Electrical Machines and Networks
Energy
Energy Systems
Foundations
Geoengineering
Hydraulics
Industrial plants
Power Electronics
Power plants
Reliability aspects
Renewable and Green Energy
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container_issue 2
container_start_page 240
container_title Power technology and engineering
container_volume 53
creator Ilyushin, P. V.
Mokeev, A. V.
Narovlyanskii, V. G.
description An analysis of the influence of changes in the power industry of Russia as well as throughout the world on the risk of out-of-step conditions accompanied by a qualitative assessment of their negative consequences is presented. The problem of preventing and eliminating out-of-step conditions is greatly complicated today because of large-scale construction and commissioning of distributed electrical generation plants along with the use of modern small-scale generating plants and the development of large industrial plants with their own internal sources of electrical energy. Features in the use of automated devices for eliminating out-of-step conditions under these new conditions are considered. The feasibility of creating an innovative adaptive complex to protect against out-of-step conditions at power engineering plants is evaluated. The basic principles in the construction of an automatic engine for adaptive out-of-step protection with the use of synchronized vector measurement algorithms are presented. The structural and functional designs of an adaptive out-of-step protection complex are presented. Recommendations for the use of an adaptive automatic complex for protection against out-of-step conditions to increase the operating reliability of power plants are presented.
doi_str_mv 10.1007/s10749-019-01066-0
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subjects Algorithms
Automation
Electric industries
Electrical Machines and Networks
Energy
Energy Systems
Foundations
Geoengineering
Hydraulics
Industrial plants
Power Electronics
Power plants
Reliability aspects
Renewable and Green Energy
title An Innovative Adaptive Automated Complex for Protection Against Out-of-Step Conditions in a Power Plant
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