OTPIMAL ENGAGEMENT OF CAPACITORS IN DISTRIBUTION NETWORK FOR 24H PERIOD
DOI:
https://doi.org/10.24867/04BE07VejnovicKeywords:
Distribution network, Reactive power, Power factor control, Shunt capacitor optimizationAbstract
In this paper optimal engagement of capacitor in distribution network for period of 24h is analyzed. Mathematical model of optimization problem is described and then implemented in programming language C++. Verification of mathematical model and algorithm tracking is done on simple example of test distribution network.
References
[1] A.Ulinuha, M.A.S.Masoum, S.M.Islam: Optimal Scheduling of LTC and Shunt Capacitors in Large Distorted Distribution Systems Using Evolutionary-Based Algorithms, IEEE Trans. on PWRD, vol. 23, Issue: 1, Jan. 2008.
[2] S.Bajić: Optimizacija napona i reaktivnih snaga u distributivnim mrežama, master rad, Fakultet tehničkih nauka u Novom Sadu, Novi Sad, 2014.
[3] J.Park, S.Nam, J.-K.Park: Control of a ULTC Considering the Dispatch Schedule of Capacitors in a Distribution System, IEEE Trans. on PS, vol. 22, Issue: 2, May 2007.
[4] R.H.Liang, Y.S.Wang: Fuzzy-based reactive power and voltage control in a distribution system; IEEE Trans. on PWRD, vol. 18, no. 2, pp. 610-618, Apr. 2003.
[5] G.Carpinelli, C.Noce: Voltage Regulators and Capacitor Placement in Three-phase Distribution Szstems with Non-linear and Unbalanced Loads; International Journal of Emerging Electric Power Systems, No.4, 1-17, (2006).
[6] T.Ghose, S.K.Goswam: Effects of unbalances and harmonics on optimal capacitor placement in distribution system; Electric Power Systems Research, 68, 2, 167-173, (2003)
[7] T.Niimura, R.Yokoyama, B.J.Cory: A fuzzy coordination approach for multi-objective voltage and reactive power scheduling of an electric power system; in Proc. 2nd IEEE Int. Conf. Fuzzy Systems, pp. 267-272, Mar. 1993.
[8] L.Zhang, W.Tang, J.Liang, P.Cong, Y.Cai: Coordinated Day-Ahead Reactive Power Dispatch in Distribution Network Based on Real Power Forecast Errors. IEEE Transactions on Power Systems. 31. 1-9. 10.1109/TPWRS.2015.2466435
[9] Mitchell, Melanie (1996). An Introduction to Genetic Algorithms. Cambridge: MA: MIT Press. стр. 2, 2015.
[2] S.Bajić: Optimizacija napona i reaktivnih snaga u distributivnim mrežama, master rad, Fakultet tehničkih nauka u Novom Sadu, Novi Sad, 2014.
[3] J.Park, S.Nam, J.-K.Park: Control of a ULTC Considering the Dispatch Schedule of Capacitors in a Distribution System, IEEE Trans. on PS, vol. 22, Issue: 2, May 2007.
[4] R.H.Liang, Y.S.Wang: Fuzzy-based reactive power and voltage control in a distribution system; IEEE Trans. on PWRD, vol. 18, no. 2, pp. 610-618, Apr. 2003.
[5] G.Carpinelli, C.Noce: Voltage Regulators and Capacitor Placement in Three-phase Distribution Szstems with Non-linear and Unbalanced Loads; International Journal of Emerging Electric Power Systems, No.4, 1-17, (2006).
[6] T.Ghose, S.K.Goswam: Effects of unbalances and harmonics on optimal capacitor placement in distribution system; Electric Power Systems Research, 68, 2, 167-173, (2003)
[7] T.Niimura, R.Yokoyama, B.J.Cory: A fuzzy coordination approach for multi-objective voltage and reactive power scheduling of an electric power system; in Proc. 2nd IEEE Int. Conf. Fuzzy Systems, pp. 267-272, Mar. 1993.
[8] L.Zhang, W.Tang, J.Liang, P.Cong, Y.Cai: Coordinated Day-Ahead Reactive Power Dispatch in Distribution Network Based on Real Power Forecast Errors. IEEE Transactions on Power Systems. 31. 1-9. 10.1109/TPWRS.2015.2466435
[9] Mitchell, Melanie (1996). An Introduction to Genetic Algorithms. Cambridge: MA: MIT Press. стр. 2, 2015.
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Published
2019-08-18
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Section
Electrotechnical and Computer Engineering
