Authors: M. Sedighizadeh, A. Rezazadeh

Abstract:

In this paper presents a technique for developing the computational efficiency in simulating double output induction generators (DOIG) with two rotor circuits where stator transients are to be included. Iterative decomposition is used to separate the flux– Linkage equations into decoupled fast and slow subsystems, after which the model order of the fast subsystems is reduced by neglecting the heavily damped fast transients caused by the second rotor circuit using integral manifolds theory. The two decoupled subsystems along with the equation for the very slowly changing slip constitute a three time-scale model for the machine which resulted in increasing computational speed. Finally, the proposed method of reduced order in this paper is compared with the other conventional methods in linear and nonlinear modes and it is shown that this method is better than the other methods regarding simulation accuracy and speed.

Keywords: DOIG, Iterative separation, Integral manifolds, Reduced order.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1080189

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References:

[1] J. B. Ekanayake, L. Holdsworth, X. Wu, N. Jenkins, "Dynamic Modeling of Doubly Fed Induction Generator Wind Turbines", IEEE Trans. On power systems, Vol. 18, No .2, May 2003, pp.803-809.
[2] N. Gunarathnam, D. W. Novotny," The effect of neglecting stator transients of induction machines in dynamic stability studies", IEEE TPAS- 99 PP.2050-2059, Nov 1980.
[3] E. Levil, D. Rauski, "Self excitation modeling in deep bar and double cage induction generators", IEEE Sixth International Conference on Electrical Machines and Drives, 1993, 8-10 Sep., 1993.
[4] Castro, R.M.G.; Ferreira de Jesus, J.M.; "A wind park reduced-order model using singular perturbations theory," IEEE Transactions on Energy Conversion, Volume: 11, No:4, Dec.1996, Page(s): 735 -741.
[5] G. Richrds, O.T. Tan, "Decomposed, reduced order model for double cage induction machines", IEEE T-EC-1, No.3, Sept. 1986, pp.87-93.
[6] Tseng, H.C.; Kokotovic, P.V.; "Tracking and disturbance rejection in nonlinear systems: the integral manifold approach", Proceedings of the 27th IEEE Conference on Decision and Control, 1988, 7-9 Dec. 1988, Page(s):459-463, vol.1.
[7] Sedighizadeh. M., Kalantar, M; "A wind farm reduced order model using Integral manifold theory," IASTED conf. Modeling, identification and control (MIC 2004), 23-25 Feb 2004, Switzerland, PP.281-286.