Abstract
Synchronous generator load angle is a fundamental quantity for power system stability assessment, with possible real-time applications in protection and excitation control systems. Commonly used methods of load angle determination require additional measuring equipment, while existing research on load angle estimation for wound rotor synchronous generator has been limited to the estimator based on the generator’s phasor diagram and estimators based on artificial neural networks. In this paper, a load angle estimator for salient-pole wound rotor synchronous generator, based on a simple sliding mode observer (SMO) which utilizes field current, stator voltages, and stator currents measurements, is proposed. The conventional SMO structure is improved with use of hyperbolic tangent sigmoid functions, implementation of the second order low-pass filters accompanied with corresponding phase delay compensation, and introduction of an adaptive observer gain proportional to the measured field current value. Several case studies conducted on a generator connected to a power system suggest that the proposed estimator provides an adequate accuracy during active and reactive power disturbances during stable generator operation, outperforming the classical phasor diagram-based estimator by reducing mean squared error by up to 14.10%, mean absolute error by up to 41.55%, and maximum absolute error by up to 8.81%.
Highlights
Due to increasing demands and regulatory constraints, modern power systems have been forced to operate close to their stability limits
The performance of the suggested sliding mode observer (SMO) based load angle estimator was tested in MATLAB/Simulink simulations described in the previous subsection
When compared to the conventionally applied load angle estimator based on the generator’s voltage-current phasor diagram, the estimator proposed in this paper provides significant performance improvements
Summary
Due to increasing demands and regulatory constraints, modern power systems have been forced to operate close to their stability limits. The wound rotor synchronous generator is a basic production unit of the electrical power system, and its load angle, defined as the electrical angle by which the internal induced voltage in the quadrature (q) axis Eq leads the stator terminal voltage Us , represents a fundamental quantity for power system stability assessment [1,2] It defines the generator operating point with respect to the stability limits. Direct load angle measurements are rarely used, while indirect measurements, utilizing rotor position information from the corresponding sensor and the information about the first harmonic of the generator terminal voltage, such as those presented in [5,6,7], are more prevalent These methods of load angle determination require installation of additional measuring equipment, which represents additional costs, while in some systems it is even not possible to install it due to their configuration
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