Title :
Can a grid be smart without communications? A look at IVVC implementation
Author :
McFetridge, Bob ; Stephens, Brent
Author_Institution :
Technol. Applic. Solution Architect, Beckwith Electr. Co., Largo, FL, USA
fDate :
April 28 2013-May 1 2013
Abstract :
This paper focuses on an integrated volt/VAr control (IVVC) system that is being installed at Georgia Power Company that does not require any communications to function. Substation load tap change (LTC) transformers and feeder regulators are coordinated with down-line regulators and switched capacitor banks to flatten the voltage profile of the circuits and allow each circuit to be operated at lower voltages. The initial system will be installed and operated with limited communications to devices inside the substation and no communications with the devices outside of the substation.
Keywords :
load regulation; power transformers; substations; switched capacitor networks; voltage control; IVVC implementation; down line regulators; feeder regulators; integrated volt VAr control system; substation load tap change transformers; switched capacitor banks; voltage profile; Capacitors; Load management; Reactive power; Regulators; Substations; Switches; Voltage control; Line drop voltage; load drop compensation; load tap change transformer; negative reactive compensation; volt/amp reactive;
Conference_Titel :
Rural Electric Power Conference (REPC), 2013 IEEE
Conference_Location :
Stone Mountain, GA
Print_ISBN :
978-1-4673-5173-7
DOI :
10.1109/REPCon.2013.6681847
