Artículos
Publicado 2008-12-03
Palabras clave
- Máquina Sincrónica,
- estimación,
- modelo de dos ejes,
- prueba de vacío,
- validación de modelos
- Predictor Error Method (PEM) ...Más
Cómo citar
Villamizar-Montes, L., Martínez-Ayala, D. F., & Vargas Torres, H. R. (2008). Estimación de parámetros de una máquina sincrónica a partir de señales del laboratorio. Revista UIS Ingenierías, 7(2), 193–201. Recuperado a partir de https://revistas.uis.edu.co/index.php/revistauisingenierias/article/view/49
Resumen
En este artículo se presenta una metodología diseñada para estimar los parámetros de la máquina sincrónica a partir de medidas tomadas tanto en su operación normal como de vacío. La metodología utiliza el método PEM para la estimación de modelos en general. Esta metodología se implementó en MATLAB, y junto con el software se implementó un sistema de adquisición de señales eléctricas de tensión y corriente. La metodología propuesta permite obtener los modelos matemáticos de máquinas sincrónicas hasta de un nivel industrial. Finalmente, se presenta el proceso de estimación para una máquina de laboratorio.
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Referencias
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A. Keyhani and G. Dayal, The effects of noise on frecuency-domain parameter estimation of synchronous machine models, IEEE Trans.4 (1989), 600–607.
A. Keyhani and G. Dayal, Maximum likelihood estimation of solid-rotor synchronous machine parameters form SSFR test data, IEEE Trans. 4 (1989), 551–558.
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P. L. Dandeno, P. Kundur, A. T. Porary, and M. E.Coultes, Adaptation and validation of turbogenerator
model parameters through on-line frecuency response measurements, IEEE Trans. PAS-100 (1981), 1656–1664.
P. L. Dandeno and A. T. Porary, Developed of detailed turbogenerator equivalent circuits from standstill frecuency response measurements, IEEE Trans. PAS-100 (1981), 1646–1643.
P.L. Dandeno, P. Kundur, A. T. Porary, and M.E. Coultes, Validation of turbogenerator stability models by comparisons with power system test, IEEE Trans. PAS-100 (1981), 1637–1643.
F.P. de Mello and L. N. Hannett, Validation of synchronous machine models and determination of model parameters from test, IEEE Trans. PAS-100 (1981), 662–672.
F.P. de Mello and J.R. Ribeiro, Derivation of synchronous machine parameters from test, IEE Trans. PAS-96 (1977), 1211–1218.
G. Shackshaft and A.T. Porary, Implementation of new approach to determination of synchronous machine parameters from test, IEE Proc. 124 (1977), 1170–1178
Zhengming Zhao and Longia Xu, A dinamic on-line parameter identifcation and full-scale experimental verifcation for large synchronous machines, IEEE Trans. 10 (1995), 392–398.
H. B. Karayaka and Keyhani, Metodology Development for Estimation of Armature Circuit and Field Winding Parameters of Large Utility Generators, IEEE Transaction on Energy Conversion, Vol. 14, 1999.
P.M. Anderson and A.A. Fouad, Power System Control & Stability, IEEE Press, 1994.
IEEE Recommended practices and requirements for harmonic control in electrical power systems, IEEE
Standard 519, 1992
L. Ljung and T. Södestörm, Theory and practice of recursive identifcation, M.I.T. Press, 1983.
L. Ljung, System identifcation theory for the user, Prentice - hall, 1987.
P. Vas, Parameter estimation, condition monitoring and diagnosis of electrical machines, Oxford, University Press 1993.
W. Scott Meyer and Tsu-huei Liu, Electro-Magnetic Transients Program, Theory Book, Portland Oregon, 1995.
IEEE Guide for Synchronous Generator Modeling Practices and Applications in Power system Stability Analyses, IEEE Standard 1110-2002.
IEEE Test procedures for synchronous machines, IEEE Standard 115-1995.
A. Keyhani and G. Dayal, The effects of noise on frecuency-domain parameter estimation of synchronous machine models, IEEE Trans.4 (1989), 600–607.
A. Keyhani and G. Dayal, Maximum likelihood estimation of solid-rotor synchronous machine parameters form SSFR test data, IEEE Trans. 4 (1989), 551–558.
W. A. Lewis, A basic analysis of synchronous machine part I, AIEE Trans. 77 (1958), 436–456.
M. E. Coultes and W. Watson, Synchronous machine models by standstill frequency response tests, IEEE Trans. PAS-100 (1981), 1480–1489.
P. L. Dandeno, P. Kundur, A. T. Porary, and M. E.Coultes, Adaptation and validation of turbogenerator
model parameters through on-line frecuency response measurements, IEEE Trans. PAS-100 (1981), 1656–1664.
P. L. Dandeno and A. T. Porary, Developed of detailed turbogenerator equivalent circuits from standstill frecuency response measurements, IEEE Trans. PAS-100 (1981), 1646–1643.
P.L. Dandeno, P. Kundur, A. T. Porary, and M.E. Coultes, Validation of turbogenerator stability models by comparisons with power system test, IEEE Trans. PAS-100 (1981), 1637–1643.
F.P. de Mello and L. N. Hannett, Validation of synchronous machine models and determination of model parameters from test, IEEE Trans. PAS-100 (1981), 662–672.
F.P. de Mello and J.R. Ribeiro, Derivation of synchronous machine parameters from test, IEE Trans. PAS-96 (1977), 1211–1218.
G. Shackshaft and A.T. Porary, Implementation of new approach to determination of synchronous machine parameters from test, IEE Proc. 124 (1977), 1170–1178
Zhengming Zhao and Longia Xu, A dinamic on-line parameter identifcation and full-scale experimental verifcation for large synchronous machines, IEEE Trans. 10 (1995), 392–398.
H. B. Karayaka and Keyhani, Metodology Development for Estimation of Armature Circuit and Field Winding Parameters of Large Utility Generators, IEEE Transaction on Energy Conversion, Vol. 14, 1999.
P.M. Anderson and A.A. Fouad, Power System Control & Stability, IEEE Press, 1994.
IEEE Recommended practices and requirements for harmonic control in electrical power systems, IEEE
Standard 519, 1992