Title :
An optimization based design method for harmonic filters in unbalanced utility AC systems
Author :
Sharaf, Adel M. ; Fisher, Michael E.
Abstract :
This paper presents a novel design technique for harmonic filters in AC unbalanced power systems. The design methodology is based on nonlinear minimization of a composite objective function depicting the three filter requirements of low harmonic injection into the AC host utility grid, maximum absorption by the harmonic filter, and minimum harmonic voltage distortion, with the avoidance of any parallel resonance or harmonic intensification condition on the AC network. The design methodology relies on harmonic scans and phase impedance measurements and the system curve fitted equivalent impedance/admittance transfer function within the harmonic band of interest. The min-max optimization is performed over a specified set of discrete dominant “offending” harmonics for given filter inequality constraints using newly defined equivalent system dynamic impedance equivalents
Keywords :
filters; minimax techniques; power system harmonics; AC host utility grid; composite objective function; equivalent impedance/admittance transfer function; equivalent system dynamic impedance equivalents; filter inequality constraints; harmonic filters; harmonic scans; low harmonic injection; maximum absorption; min-max optimization; minimum harmonic voltage distortion; nonlinear minimization; optimization based design method; phase impedance measurements; unbalanced AC power systems;
Conference_Titel :
Advances in Power System Control, Operation and Management, 1993. APSCOM-93., 2nd International Conference on
Conference_Location :
IET
Print_ISBN :
0-85296-569-9
