Title :
A study of equipment sizes and constraints for a unified power flow controller
Author :
Bian, Jingwen ; Ramey, D.G. ; Nelson, R.J. ; Edris, A.
Author_Institution :
Westinghouse Power Generation Bus. Unit, Orlando, FL, USA
fDate :
7/1/1997 12:00:00 AM
Abstract :
This paper provides a quantitative measurement of the benefit that a unified power flow controller (UPFC) can provide to increase firm power transfer between two large power systems. Included is a complete model for a UPFC control system that contains bus voltage control by the shunt inverter, real power transfer between the shunt and series inverters, and real and reactive power control for the transmission line into which the series inverter is inserted. A significant part of the model is representation of dynamic limits that coordinate injected current limits for the shunt inverter, power transfer limits between inverters, voltage injection limits for the series inverter, current limits for the series inverter and line voltage limits for the transmission line. This paper contains a simple power system simulation to demonstrate the coordinated dynamic control and illustrate issues that power system planning engineers consider in defining applications for a UPFC
Keywords :
DC-AC power convertors; control system analysis; invertors; load flow; load regulation; power control; power system control; power system interconnection; power transmission lines; transmission networks; voltage control; bus voltage control; control simulation; coordinated dynamic control; injected current limits; interconnected power systems; power transfer; power transmission line; reactive power control; real power control; series inverter; shunt inverter; unified power flow controller; voltage injection limits; Control systems; Fluid flow measurement; Inverters; Load flow; Power measurement; Power system dynamics; Power system measurements; Power system modeling; Power transmission lines; Voltage control;
Journal_Title :
Power Delivery, IEEE Transactions on
