MODELING AND ANALYSIS OF THE INFLUENCE OF VOLTAGE SAGS USING TEST NETWORKS WITH DISTRIBUTED GENERATORS
DOI:
https://doi.org/10.24867/11BE24ToholjKeywords:
voltage sags, IEEE test grids, wind farmAbstract
In this paper are considered voltage sags during fault simulation at different locations and distances in modified IEEE 3-bus and IEEE 9-bus test grids. The grids have been modified by connecting distributed generators, i.e. wind farms. The goal is to determine the influence of the connected distributed generators in the grid, as well as the influence of the distance of the fault location on the voltage sags. The modelling was performed in the software package DIgSILENT Power Factory.
References
[1] V. Mijailović, „Distribuirani izvori energije – principi rada i eksploatacioni aspekti“, Akademska misao, Beograd, 2011.
[2] A. Stanisavljević, V.A. Katić, B. Dumnić, B. Popadić, „A Brief Overview of the Distribution Test Grids with a Distributed Generation Inclusion Case Study“, Serbian Journal of Electrical Engineering, Vol.15, No.1, Feb.2018, pp. 115 – 129,
[3] https://www.digsilent.de/en/
[4] V.A. Katić, A. Tokić, T. Konjić: „Kvalitet električne energije“, TEMPUS-CEFES, Fakultet tehničkih nauka, Novi Sad, 2007.
[2] A. Stanisavljević, V.A. Katić, B. Dumnić, B. Popadić, „A Brief Overview of the Distribution Test Grids with a Distributed Generation Inclusion Case Study“, Serbian Journal of Electrical Engineering, Vol.15, No.1, Feb.2018, pp. 115 – 129,
[3] https://www.digsilent.de/en/
[4] V.A. Katić, A. Tokić, T. Konjić: „Kvalitet električne energije“, TEMPUS-CEFES, Fakultet tehničkih nauka, Novi Sad, 2007.
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Published
2020-12-26
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Section
Electrotechnical and Computer Engineering
