Synchronous Generator Model Parameter Estimation Based on Noisy Dynamic Waveforms

[1] IEEE Guide: Test Procedures for Synchronous Machines, IEEE Standard 115 — 2009.Search in Google Scholar

[2] IEEE Standard Procedures for Obtaining Synchronous Machine Parameters by Standstill Frequency Response Testing, IEEE Standard 115A-1987, (1987).Search in Google Scholar

[3] CISNEROS-GONZLEZ, M.—HERNANDEZ, C.—MORALES-CAPORAL, R.—BONILLA-HYERTA, E.—ARJONA, M. A. : Parameter estimation of synchronous-generator two-axis model based on the chirp test, IEEE Transactions on Energy Conversion 28 No. 1 (2013), 44–51.10.1109/TEC.2012.2236433Search in Google Scholar

[4] MAJKA, L.—SZUSTER, D. : Application of the stationary DC decay test to industrial turbogenerator model parameter estimation, Przegląd Elektrotechniczny 90 No. 4 (2014), 242–245.Search in Google Scholar

[5] AHMED, M.—OTEAFY, A.—CHIASSON, J. N. : A Standstill Parameter Identification Technique for the Divided Winding Rotor Synchronous Generator, 2014 IEEE International Conference Power & Energy, 1-3 Dec. 2014,, 99–104.Search in Google Scholar

[6] JAHROMI, M. E.—FIROUZI, B.—RANJBAR, A. M. : Possibility of Large Synchronous Generator Parameters Estimation via On-Line Field Tests using Genetic Algorithm, Power India Conference, IEEE, 2006.10.1109/POWERI.2006.1632629Search in Google Scholar

[7] TANPO, S.—OHISHI, K.—MAKISHIMA, S.—UEZONO, K. : Online Identification and Tuning Method of Static & Dynamic Inductance of IPMSM for Fine Position Sensorless Control, 2014 IEEE, International Conference on Industrial Technology, Feb. 26 - Mar. 1, Busan, Korea.10.1109/ICIT.2014.6894925Search in Google Scholar

[8] IEEE Std 1110-2002: IEEE Guide for Synchronous Generator Modeling Practices and Applications in Power System Stability Analyses, 2003.Search in Google Scholar

[9] JAHROMI, M. E.—FIROUZI, B.—RANJBAR, A. M. : Possibility of large synchronous generator parameters estimation via on-line field tests using genetic algorithm, Power India Conference, 2006 IEEE.10.1109/POWERI.2006.1632629Search in Google Scholar

[10] AHMADI, S.—KARRARI, M. : A Multiple-Model Approach for Synchronous Generator Nonlinear System Identification, Journal of Electrical Engineering 63 No. 4 (2012), 249–254.10.2478/v10187-012-0035-5Search in Google Scholar

[11] KYRIAKIDES, E.—HEYDT, G. T—VITTAL, V. : Online parameter estimation of round rotor synchronous generators including magnetic saturation, IEEE Transactions on Energy Conversion 20 No. 3 (2005), 529–537.10.1109/TEC.2005.847951Search in Google Scholar

[12] BERHAUSEN, S.—PASZEK, S. : Parameter Estimation of the Model of a Synchronous Generator Working in Multi-Machine Power System. (in Polish)Search in Google Scholar

[13] WAMKEUE, R.—BAETSCHER, F.—KAMWAI. : Hybridstate-model-based time-domain identification of synchronous machine parameters from saturated load rejection test records, IEEE Transactions on Energy Conversion 23 No. 1 (2008), 68–77.10.1109/TEC.2007.914663Search in Google Scholar

[14] BERHAUSEN, S.—PASZEK, S. : Assessment of the accuracy of synchronous generator model parameter estimation based on noisy dynamic waveforms, Przegld Elektrotechniczny 91 No. 7 (2015), 16–20.Search in Google Scholar

[15] PASZEK, S.—BERHAUSEN, S.—BOBOŃ, A.—MAJKA, L.—NOCOŃ, A.—PASKO, M.—PRUSKI, P.—KRASZEWSKI, T. : Measurement Estimation of Dynamic Parameters of Synchronous Generators and Excitation Systems Working in the National Power Plant, Monograph, Wyd. Politechniki Śląskiej, Gliwice, 2013. (in Polish)Search in Google Scholar

[16] SIMOND, J. J.—RAMIREZ, C.—TUXUAN, M.—STEPHAN, C. E. : A numerical test platform for large synchronous machines also useful as a design optimization tool, IEEE Power Engineering Society General Meeting (2006), 1–7.10.1109/PES.2006.1709207Search in Google Scholar

[17] BERHAUSEN, S.—PASZEK, S. : Use of the finite element method for parameter estimation of the circuit model of a high power synchronous generator, Bulletin of the Polish Academy of Sciences Technical 63 No. 3 (Sep. 2015), 575–582.Search in Google Scholar

[18] VERMEULEN, H. J.—STRAUSS, J. M.—SHIKOANA, V. : Online Estimation of Synchronous Generator Parameters using PRBS Perturbations, IEEE Transactions on Power Systems 17 No. 3 (2002), 674–700.Search in Google Scholar

[19] ZAKER, B.—CHAREHPETIAN, G. B.—KARRARI, M.—MOADDABI, N. : Simultaneous Parameter Identification of Synchronous Generator and Excitation System Using Online Measurements, IEEE Transactions on Smart Grid PP No. 99 (2015), 1–9.Search in Google Scholar

[20] DE MELLO, F. P.—HANNETT, L. H. : Validation of Synchronous Machine Models and Derivation of Model Parameters from Tests, IEEE Transaction on Power Apparatus and Systems 100 No. 2 (1981), 662–672.10.1109/TPAS.1981.316963Search in Google Scholar

[21] MACHOWSKI, J.—BIALEK, J. W.—BUMBY, J. R. : Power System Dynamice, Stability and Control, John Wiley & Sons, New York, 2008.Search in Google Scholar

[22] VESELÝ, V.—QUANG, T. : Robust Power System Stabilizer via Networked Control System, Journal of Electrical Engineering 62 No. 5 (2011), 286–291.10.2478/v10187-011-0045-8Search in Google Scholar

[23] KORMYLO, J.—JAIN, V. : Two-Pass Recursive Digital Filter with Zero Phase Shift, IEEE Transactions on Acoustics, Speech, and Signal Processing 22 No. 5 (1974), 384–387.Search in Google Scholar

[24] LYONS, R. G. : Understanding digital signal processing, Prentice Hall, Upper Saddle River, 3rd edition, 2010.Search in Google Scholar

[25] Mathworks Inc.: MATLAB, Signal Processing Toolbox User’s Guide, (2001).Search in Google Scholar

[26] MAJKA, L.—PASZEK. S. : Use of hybrid optimization algorithm for electromagnetic parameter estimation of a synchronous generator, Prace Naukowe Politechniki Śląskiej, Elektryka No. 2(210) (2009), 17–22.Search in Google Scholar

[27] BOLDEA, I. : Synchronous Generators, CRC Press, Taylor and Francis Group, 2006.10.1201/9781420037258Search in Google Scholar