Voltage stability assessment using fast non-dominated sorting algorithm

Voltage stability assessment using fast non-dominated sorting algorithm

This paper presents a method to calculate multiple voltage stability limits (VSLs), voltage stability margins (VSMs), and voltage stability curves (VSCs). A multiobjective metaheuristic algorithm was used to change real and reactive powers of loads and generators and perform contingencies of the net...

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Bibliographic Details
Main Authors: John Edwin Candelo, Gladys Caicedo Delgado
Format: Article
Language:English
Published: Universidad Nacional de Colombia 2019-01-01
Series:Dyna
Subjects:
crowding distance
multiobjective optimization
non-dominated sorting
Pareto front
steady-state stability
voltage stability
vulnerability region.
Online Access:https://revistas.unal.edu.co/index.php/dyna/article/view/62957
Description
Summary:This paper presents a method to calculate multiple voltage stability limits (VSLs), voltage stability margins (VSMs), and voltage stability curves (VSCs). A multiobjective metaheuristic algorithm was used to change real and reactive powers of loads and generators and perform contingencies of the network elements. The maximum values of real and reactive powers were selected using fast non-dominated sorting and crowding distance techniques, combined with a conventional power flow (PF), and referred to in this paper as NSPF. The results show that the method can select and assess multiple maximum real and reactive powers allowed for a bus, an area, or the power system and that it can consider changes in load, generation, and contingencies. Results were validated using the PF and continuation power flow methods. The method finds a large number of VSCs in less time than the conventional methods and estimates multiple VSLs and VSMs.
ISSN:0012-7353
2346-2183

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