Title :
Identification of excessive harmonic flow in large industrial loads
Author :
Todde, C. ; Brisson, M. ; Audet, M. ; Tessier, J. ; McGillis, D.T.
Abstract :
The application of electronic equipment to industrial facilities has seen an important increase, making the harmonic content of the power flow more difficult to control. When the utility system impedance is subject to variations, the harmonic power flow through the point of common coupling (PCC) can be magnified by resonance phenomena, even in the presence of appropriate harmonic filtering. In this paper, an algorithm is proposed to identify the unacceptable cases of resonance between the customer network and the electric utility power system by calculating the most critical utility system impedance inside a given impedance locus. An optimisation under constraints is carried out for the maximisation of both the voltage and the current distortions of each harmonic at the PCC. The performance indices are then calculated and can reveal the worst cases of excessive harmonic flow through the PCC
Keywords :
electric impedance; harmonic distortion; industrial power systems; load flow; power system harmonics; resonance; critical utility system impedance; customer network; excessive harmonic flow identification; harmonic current distortions; harmonic distortions maximisation; harmonic filtering; harmonic flow; harmonic power flow; harmonic voltage distortions; impedance locus; industrial loads; optimisation; performance indices; point of common coupling; power flow harmonic content; resonance phenomena magnification; utility system impedance; Electrical equipment industry; Electronic equipment; Filtering; Impedance; Industrial plants; Load flow; Power harmonic filters; Power industry; Power system harmonics; Resonance;
Conference_Titel :
Electrical and Computer Engineering, 2000 Canadian Conference on
Conference_Location :
Halifax, NS
Print_ISBN :
0-7803-5957-7
DOI :
10.1109/CCECE.2000.849601
