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Author Bielecka, Agata
Affiliation Gdynia Maritime University, Faculty of Electrical Engineering, Department of Ship Automation 81-87 Morska St., 81-225 Gdynia, Poland
E-mail a.bielecka@we.umg.edu.pl
Author Wojciechowski, Daniel
Affiliation Gdansk University of Technology, Faculty of Electrical and Control Engineering Department of Electrical Engineering, Control Systems and Informatics 11/12 G. Narutowicza St., 80-233 Gdańsk, Poland
E-mail d.wojciechowski@pg.edu.pl
ISSN printed 1733-8670
URI http://repository.scientific-journals.eu/handle/123456789/2609
Abstract This paper presents the compensation tasks performed by a shunt active power filter, including compensation of harmonic currents, reactive power, and an unbalanced load current. The paper demonstrates novel control of the shunt active power filter in a closed-loop system. The control algorithm was verified by performing simulations and compared the simulated results with those obtained in an open-loop control system. All simulations were conducted in the PLECS program using a control algorithm written in C programming language.
Pages 9-16
Publisher Scientific Journals Maritime University of Szczecin, Zeszyty Naukowe Akademia Morska w Szczecinie
Keywords shunt active power filter (SAPF)
Keywords harmonic compensation
Keywords reactive power compensation
Keywords prediction
Keywords closed-loop
Title Compensation of supply current harmonics, reactive power, and unbalanced load current balance in the closed-loop control of a shunt active power filter
References
  1. Asiminoaeiand, L., Cristian, L., Blaabjerg, F. & Boldea, I. (2006) Harmonic Mitigation Improvement with a New Parallel Topology for Shunt Active Power Filters. 37th IEEE Power Electronics Specialists Conference.
  2. Chen, W., Zhang, D., Zhang, H., Wang, Z. & Sun, M. (2019) The Research on Composite Control Strategy of Active Power Filter. 2019 34th Youth Academic Annual Conference of Chinese Association of Automation (YAC).
  3. Guzman Iturra, R., Cruse, M., Mütze, K., Dresel, C., Soleimani, I. & Thiemann, P. (2018) Model Predictive Control for Shunt Active Power Filter with Harmonic Power Recycling Capability. 2018 International Conference on Smart Energy Systems and Technologies (SEST).
  4. Mannen, T. & Fujita, H. (2014) Shunt Active Power Filter Based on Source Current Detection With Fast Transient Response. IEEE Energy Conversion Congress and Exposition (ECCE).
  5. Mariethoz, S. & Rufer, A.C. (2002) Open Loop and Closed Loop Spectral Frequency Active Filtering. IEEE Transactions on Power Electronics 17, 4, pp. 564–573.
  6. Mattavelli, P. (2001) A Closed-loop Selective Harmonic Compensation for Active Filters. IEEE Transaction on Industry Applications 37 (1), pp. 81–89.
  7. Mattavelli, P. & Marafão, F.P. (2004) Repetitive-Based Control for Selective Harmonic Compensation in Active Power Filters. IEEE Transactions on Industrial Electronics 51, 5, pp. 1018–1024.
  8. Ouchen, S., Steinhart, H., Blaabjerg, F., Benbouzid, M., Betka, A. & Gaubert, J.P. (2019) Performance Analysis of Direct Power Control with Space Vector Modulation for Shunt Active Power Filter. IECON 2019 – 45th Annual Conference of the IEEE Industrial Electronics Society.
  9. Patil, S. & Metri, R.A. (2017) Power quality improvement using shunt active power filter. IEEE International Conference on Data Management, Analytics and Innovation (ICDMAI).
  10. Srivastava, G.D. & Kulkarni, R.D. (2017) Design, simulation and analysis of shunt active power filter using instantaneous reactive power topology. Proc. of IEEE Int. Conf. on Nascent Technologies in Engineering (ICNTE) – Conf. proc. pub. in IEEE Xplore Digital Library
  11. Ullah, A., Sheikh, I.U.H., Arshad, S. & Saleem, F. (2019) Digital Active Power Filter Controller Design for Current Harmonics in Power System. 16th International Bhurban Conference on Applied Sciences and Technology (IBCAST) 2019, pp. 384–388.
  12. Wojciechowski, D. (2012) Unified LCL circuit for modular active power filter. COMPEL – The international journal for computation and mathematics in electrical and electronic engineering 31, 6, pp. 1985–1997.
ISSN on-line 2392-0378
Language English
Funding No data
Figures 13
Tables 1
DOI 10.17402/394
Published 2020-03-31
Accepted 2020-02-25
Recieved 2019-09-19


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