SIMULATION OF VOLTAGE SAGS IN A DISTRIBUTION TEST GRID WITH A RENEWABLE ENERGY SOURCE
DOI:
https://doi.org/10.24867/16BE26LucicKeywords:
IEEE 33-bus test grid, harmonic footprint, voltage sagsAbstract
The paper observes the IEEE 33-bus test grid in which the effects of voltage sags are simulated, using the Typhoon HIL Control Center software package. A case study of the simulation of the impact of different types of failures, if one solar power plant is added as a renewable energy source, is given. The harmonic footprints of the voltage sags on individual busbars in that test gridwere observed. The case study showed that different types of failures are manifested through different characteristics of voltage sags, i.e., harmonic footprints. The problem of the appearance of higher levels of harmonics during the sags caused by the limitations of the Typhoon-HIL control system was also noticed.
References
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[6] P. Perge, V.A. Katić, A.M. Stanisavljević, „Ispitivanje uticaja obnovljivih izvora primenom test mreže”, Zbornik radova FTN, God.36, br.3, 2021, pp.480-483.
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[8] I. Vasić, V. Katić, A. Stanisavljević, „Primena neuralnih mreža za detekciju propada napona na primeru rada test mreža”, Zbornik radova FTN, God. 36, br.3, 2021, pp.436-439
[9] Priručnik za korišćenje Typhoon HIL Control Center, https://www.typhoon hil.com/documentation/typhoon hil software manual/topics/software_manual_introduction.html
[2] A.M. Stanisavljević, “Nova metoda detekcije propada napona u mreži sa distribuiranim generatorima”, Dokt.diser., Fakultet tehničkih nauka, Novi Sad, 2018, https://nardus.mpn.gov.rs/handle/123456789/11090
[3] V.A. Katic, A.M. Stanisavljevic, “Smart Detection of Voltage Dips Using Voltage Harmonics Footprint”, IEEE Trans. on Industry Applications, Vol.54, No.5, Sep./Oct. 2018, pp.5331-5342.
[4] A.M. 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 , 2018, pp.115-129.
[5] J. Toholj, V.A. Katić, A.M. Stanisavljević, „Modelovanje i analiza uticaja propada napona primjenom test mreža sa distribuiranim generatorima”, Zbornik radova FTN, God.36, br.1, 2021, pp.123-126.
[6] P. Perge, V.A. Katić, A.M. Stanisavljević, „Ispitivanje uticaja obnovljivih izvora primenom test mreže”, Zbornik radova FTN, God.36, br.3, 2021, pp.480-483.
[7] V. Vidačić, V. Katić, “Uticaj obnovljivih izvora energije na propade napona u distributivnim mrežama”, Zbornik radova FTN, God.36, br.7, 2021, pp.1287-1290.
[8] I. Vasić, V. Katić, A. Stanisavljević, „Primena neuralnih mreža za detekciju propada napona na primeru rada test mreža”, Zbornik radova FTN, God. 36, br.3, 2021, pp.436-439
[9] Priručnik za korišćenje Typhoon HIL Control Center, https://www.typhoon hil.com/documentation/typhoon hil software manual/topics/software_manual_introduction.html
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Published
2022-02-03
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Section
Electrotechnical and Computer Engineering
