Title :
Assessing the Performance of a Static Var Compensator for an Electric Arc Furnace
Author :
Dionise, Thomas J.
Author_Institution :
Power Syst. Eng. Dept., Eaton Corp., Warrendale, PA, USA
Abstract :
The advantages of a static var compensator (SVC) for electric arc furnace (EAF) and ladle melt furnace (LMF) applications are well known. The SVC minimizes the impact of the EAF and LMF on the utility and improves the efficiency of both furnaces. In this application, it was desirable to quantify the performance of the SVC. This paper describes power quality measurements that were taken on the electrical distribution system to evaluate the performance of the SVC. The purpose of the power quality measurements was to monitor the voltage regulation, harmonics, flicker, and other power quality quantities at the 138-kV utility point of common coupling (PCC), as well as the 34.5-kV system serving the SVC, EAF, and LMF. The measurements and subsequent analysis established a baseline for the SVC performance and identified areas of concern. This paper describes the analysis of the measurements and evaluation of the SVC performance.
Keywords :
arc furnaces; power supply quality; static VAr compensators; voltage control; EAF; LMF applications; PCC; SVC; electric arc furnace; electrical distribution system; flicker; harmonics; ladle melt furnace; point of common coupling; power quality measurements; power quality quantities; static var compensator; voltage 138 kV; voltage 34.5 kV; voltage regulation; Furnaces; Harmonic analysis; Harmonic filters; IEEE standards; Power harmonic filters; Power quality; Static VAr compensators; Electric arc furnace (EAF); IEEE Std 1453-2004; IEEE Std 519-1992; IEEE Std. 1453-2004; IEEE Std. 519-1992; electric arc furnace; flicker; harmonic distortion; static var compensator; static var compensator (SVC);
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2013.2282762
