Abstract
This article presents a review of modern methods for ineffective instantaneous power compensation and the technical application of strategies to control the output currents of an active power filter used in energy efficiency improvement applied to three-phase systems of transmission, distribution and transformation of electric energy
Keywords: active power filter, ineffective instantaneous power correction, quaternion, hypercomplex space
References
[1] Akagi H. Active harmonic filters / H. Akagi // Proceedings of the IEEE. – Dec. 2005. – vol. 93, no. 12. – pp. 2128-2141. [2] Singh B. A review of active filters for power quality improvement / B. Singh, K. Al-Haddad, and A. Chandra // IEEE Trans. Ind. Electron. – Oct. 1999. – vol. 46, no. 5. – pp. 960–971. [3] Shyu K.K. Model reference adaptive control design for a shunt active-power-filter systems / K.K. Shyu, M. Yang, Y.M. Chen and other // IEEE Trans. Ind. Electron. – Jan. 2008. – vol. 55, no. 1. – pp. 97–106. [4] Akagi H. Instantaneous Power Theory and Applications to Power Conditioning (IEEE Press Series on Power Engineering) / H. Akagi, E. Watanabe, M. Aredes. – New York: Wiley, 2007. [5] Gyugyi L. Active ac power filters / L. Gyugyi, E.C. Strycula // IEEE IIAS annual meeting. – 1976. – pp. 529–535. [6] Mohan N. Active filters for ac harmonic suppression / Mohan N., Peterson H.A., Long W.F. // IEEE/PES Winter Meeting – July 1977. – vol. 96 – pp. 168–174. [7] Peng F.Z. A new approach to harmonic compensation in power systems a combined system of shunt passive and series active filters / F.Z. Peng, H. Akagi, A. Nabae // IEEE Trans. Ind. Applicat. – Nov/Dec 1990 – vol. 26, no. 6 – pp. 983–990. [8] Sasaki H. A new method to eliminate ac harmonic currents by magnetic compensation-Considerations on basic design / H. Sasaki and T. Machida // IEEE Trans. Power Appl. Syst. – Sept. 1971. – vol. 90, no. 5 – pp. 2009–2019. [9] Corasaniti V.F. Hybrid active filter for reactive and harmonics compensation in a distribution network / V.F. Cora-saniti, M.B. Barbieri, P.L. Arnera and other // IEEE Trans. Ind. Electron. – Mar. 2009. – vol. 56, no. 3 – pp. 670–677. [10] Krim F. Parameter Estimation of Shunt active Filter for power quality improvement / F. Krim // The 5th International Power Engineering and Optimization Conference (PEOCO2011) – Shah Alam, Selangor, Malaysia: 6-7 June 2011. – pp. 306–311. [11] Malesani L. Active filter for reactive power and harmonics compensation / L. Malesani, L. Rossetto, P. Tenti // Proc. IEEE PESC’86, 1986, pp. 321–330. [12] Herrera R.S. Instantaneous reactive power theory applied to active power filter compensation: Different approaches, assessment, and experimental results / R.S. Herrera, P. Salmerýn, H. Kim // IEEE Transaction, Ind. Electron. – Jan. 2008. – vol. 55, no. 1 – pp. 184–196. [13] Akagi H. Generalized Theory of the Instantaneous Reactive Power in Three-Phase Circuits / H. Akagi, Y. Kanazawa, A. Nabae // IPEC'83 - Int. Power Electronics Conf. – Tokyo, Japan, 1983. – pp. 1375–1386. [14] Akagi H. Instanataneous Reactive Power Compensator Comprising Switching Devices without Energy Storage Compenents / H. Akagi, Y. Kanazawa, A. Nabae // IEEE Trans. Industry Applic. – May/June 1984 – vol. 20. – pp. 625–630. [15] Afonso J.L. Shunt Active Filter for Power Quality Improvement / J.L. Afonso, M. Aredes, E. Watanabe and other // International Conference UIE 2000 - “Electricity for a Sustainable Urban Development” – Lisbon, Portugal: 1-4 November 2000 – pp. 683–691. [16] Nakata A. A new method for separating AC component of instantaneous real power and imaginary power suitable for active filters / A. Nakata, A. Ueda, A. Torii // Proceedings of the Power Conversion Conference – Nagaoka, Japan: Aug 1997. – vol. 2. – pp. 719–724. [17] Cui Xiao-Xi Study on DC voltage control of hybrid active power filters / Xiao-Xi Cui, Chi-Seng Lam, Ning-Yi Dai and other // The 6th IEEE Conference on Industrial Electronics and Applications(ICIEA2011) – Beijing, China: Jun. 2011 – pp. 856–861. [18] Nos O.V. DC-bus voltage control strategy of active power filter / O.V. Nos, K.A. Shalygin // The 14th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices EDM–2013: proceedings. – Erlagol, Altai, Russia, 2013. – pp. 345–348. [19] Nos. O.V. Algoritm upravlenija vyhodnymi tokami aktivnogo silovogo fil'tra s ispol'zovaniem giperkompleksnyh chisel / O.V. Nos, V.V. Pankratov // Izv. vuzov. Jelektromehanika. – 2012. – №6. – S. 33–39. [20] Shrejner R.T. Matematicheskoe modelirovanie jelektroprivodov peremennogo toka s poluprovodnikovymi preobrazovateljami chastoty / R.T. Shrejner. – Ekaterinburg, Ural'skoe otdelenie RAN, 2000. – 654 s. [21] Nos O.V. Primenenie algebry kvaternionov v matematicheskih modeljah jelektricheskih mashin peremennogo toka / O.V. Nos // Avtomatizirovannye jelektromehanicheskie sistemy: sb. nauch. tr. – Novosibirsk, NGTU, 2011. – S. 16–32. [22] Furman A.Ja. Kompleksnye i giperkompleksnye sistemy v zadachah obrabotki mnogomernyh signalov/ A.Ja. Furman. – M.: FIZMATLIT, 2004. – 451 s. [23] Branec V.N. Primenenie kvaternionov v zadachah orientacii tverdogo tela / V.N. Branec, I.P. Shmyglevskij. – M.: Nauka. Glav red. fiz.-mat. lit., 1973. – 320 s. [24] Kantor I.L. Giperkompleksnye chisla / I.L. Kantor, A.S. Solodovnikov. – M.: Nauka. Glav red. fiz.-mat. lit., 1973. – 144 s.
