Title :
Load-Flow Modeling of the Integrated Bundle-Controlled Line Impedance Modulator
Author :
Brochu, Jacques ; Couture, Pierre
Author_Institution :
Hydro-Quebec Res. Inst. (IREQ), Varennes, QC, Canada
Abstract :
This paper presents the load-flow modeling and steady-state capabilities of the bundle-controlled line impedance modulator (LIM). This distributed flexible ac transmission system device is under development for the management of power flows. In particular, this paper presents the back-to-back interconnection of two bundle-controlled line segments. The LIM configuration is very interesting from an economic and operational point of view: it enables continuous control of the transmission-line impedance from its standard value up to 1.64 p.u. and, as a result, the power flow can be reduced smoothly.
Keywords :
flexible AC transmission systems; load flow; power transmission lines; LIM configuration; bundle-controlled line segments; distributed flexible ac transmission system device; integrated bundle-controlled line impedance modulator; load-flow modeling; power flow; power flow management; steady-state capabilities; transmission-line impedance; Conductors; Impedance; Load flow; Load modeling; Mathematical model; Optical switches; Power transmission lines; Bundle conductors; flexible ac transmission systems (FACTS); line impedance modulator (LIM); load-flow control; power system simulation; power transmission lines;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2014.2365434
