Title :
Comprehensive analysis to specify a static var compensator for an Electric Arc Furnace upgrade
Author :
Morello, S. ; Dionise, T.J. ; Mank, T.L.
Author_Institution :
ARM EnerTech Assoc., LLC, Johnstown, PA, USA
Abstract :
This steel maker is upgrading the Electric Arc Furnace (EAF) Melt Shop to increase production and improve metallurgical quality of their product. The increased electrical load and harmonic generation for the new furnace operation necessitated the installation of a static var compensator (SVC) to meet utility interconnect requirements. This paper describes a sequence of comprehensive analysis performed to specify the SVC including Load Flow Analysis, Flicker Analysis and Harmonic Analysis Studies. The analysis presented in this paper sized and evaluated the proposed SVC reactive compensation to mitigate flicker, harmonics and power factor for the new EAF and LMF installations to comply with the utility interconnect requirements.
Keywords :
arc furnaces; harmonic analysis; load flow; power factor; static VAr compensators; steel industry; EAF melt shop; LMF installation; SVC reactive compensation; comprehensive analysis; electric arc furnace upgrade; flicker analysis; flicker mitigation; harmonic analysis; harmonic generation; harmonic mitigation; ladle melt furnace; load flow analysis; metallurgical quality; power factor; static var compensator specification; steel maker; utility interconnect requirement; Furnaces; Harmonic analysis; Power harmonic filters; Reactive power; Static VAr compensators; Steel; Electric Arc Furnace (EAF); IEEE Std 18-1992; IEEE Std 519-1992; Ladle Melt Furnace (LMF); flicker; harmonic analysis; harmonic filtering; static var compensator (SVC);
Conference_Titel :
Industry Applications Society Annual Meeting, 2014 IEEE
Conference_Location :
Vancouver, BC
DOI :
10.1109/IAS.2014.6978441
