Title :
Implementation of Closed Loop Voltage Control for Medium Voltage distribution
Author :
Quinn, J.C. ; Oo, A. Maung Than ; Gear, T.
Author_Institution :
Power Eng. Res. Group (PERG), Central Queensland Univ. (CQU), Rockhampton, QLD, Australia
Abstract :
Queensland legislation requires Distribution Network Service Providers (DNSPs) maintain a steady state voltage of 240V ± 6% at customer premises. With use of sensitive electronic equipment and embedded generation, traditional voltage management solutions may no longer be appropriate. This paper proposes Closed Loop Voltage Control (CLVC) that utilises real time data feedback from substation Supervisory Control and Data Acquisition (SCADA) and Power Quality (PQ) meters to dynamically set the optimal Zone Substation (ZS) OLTC transformer tap. The algorithm acts to reduce `out of limits´ voltages at PQ meter locations and hence provide tighter voltage regulation at the network extremities. A software GUI was developed to test CLVC on a distribution network in Regional Queensland, Australia. The OLTC transformer was switched to manual mode and tap actions were initiated on SCADA based on real time CLVC.
Keywords :
SCADA systems; closed loop systems; on load tap changers; power distribution control; power supply quality; power system measurement; substations; voltage control; SCADA; closed loop voltage control; medium voltage distribution; optimal zone substation OLTC transformer tap; power quality meters; real time data feedback; substation supervisory control and data acquisition; Bandwidth; Graphical user interfaces; Real time systems; Regulators; Software; Substations; Voltage control; Closed Loop Control; Conservation Voltage Reduction; Distribution; Power Quality; Voltage Management; Voltage Regulator;
Conference_Titel :
Universities Power Engineering Conference (AUPEC), 2010 20th Australasian
Conference_Location :
Christchurch
Print_ISBN :
978-1-4244-8379-2
Electronic_ISBN :
978-1-4244-8380-8
