Title :
An advanced computer code for single-tuned harmonic filter design
Author :
Lin, Kun-Ping ; Lin, Ming-Hoon
Author_Institution :
Ming-Hoon Electrical Design & Consulting Co., Tainan, Taiwan
Abstract :
The objective of this paper is to present a novel approach for limiting harmonic and improving reactive compensation for industrial power systems using single-tuned filters. The unique feature of the developed power distribution model is that it incorporates both the filter´s capacity and resonant point as design parameters. The model also considers the de-tuning effects due to temperature and frequency variations, as well as manufacturing tolerances. The proposed approach was implemented as a PC-based computer code, and it was integrated with a user-friendly graphical user interface. The developed analysis tool was employed to solve the harmonic problems of several industrial plants, and the results all showed great improvements after using this computer tool
Keywords :
circuit CAD; compensation; distribution networks; graphical user interfaces; harmonic distortion; industrial power systems; microcomputer applications; power engineering computing; power filters; power system control; power system harmonics; reactive power control; PC-based computer code; VAr compensation improvement; de-tuning effects; design parameters; filter capacity; filter resonant point; harmonics limitation; industrial plants; industrial power systems; manufacturing tolerances; power circuit CAD; power distribution model; single-tuned harmonic filter design; user-friendly graphical user interface; Frequency; Harmonic filters; Industrial power systems; Power distribution; Power harmonic filters; Power system harmonics; Power system modeling; Resonance; Temperature; Virtual manufacturing;
Conference_Titel :
Industrial and Commercial Power Systems Technical Conference, 1997. Conference Record, Papers Presented at the 1997 Annual Meeting., IEEE 1997
Conference_Location :
Philadelphia, PA
Print_ISBN :
0-7803-3825-1
DOI :
10.1109/ICPS.1997.596003
