Title :
Control of tie-line power flow by nonlinear SMES controller
Author :
Wang, Kang ; Lan, Zhou ; Gan, Deqiang ; Shi, Libao ; Ni, Yixin
Author_Institution :
Dept. of EE, Zhejiang Univ., Hangzhou
Abstract :
This paper presents a new control strategy for superconducting magnetic energy storage (SMES). The control strategy fully utilizes the flexibility of SMES in exchanging active and reactive powers with power systems in four quadrants to control tie-line power flow. The objective is to synchronize centre of inertial of sending and receiving subsystem under transient conditions and quickly damp post-fault inter-area oscillation. Back-stepping method is used to derive control law for active power output of SMES. Proportional control is used for reactive power output of SMES. The designed controller is robust to model errors and bounded external disturbances. Computer test results demonstrate that the presented controller can effectively damp inter-area oscillation of power systems.
Keywords :
control system synthesis; load flow control; power system control; power system stability; proportional control; reactive power; robust control; superconducting magnet energy storage; active power; back-stepping method; nonlinear SMES controller; post-fault inter-area oscillation; power system stability; power system transients; proportional control; reactive power; robust control design; superconducting magnetic energy storage; tie-line power flow control; Control systems; Load flow; Power system control; Power system modeling; Power system transients; Power systems; Proportional control; Reactive power control; Samarium; Superconducting magnetic energy storage; Back-stepping; Centre of Inertial; Power Systems; Superconducting Magnetic Energy Storage;
Conference_Titel :
Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE
Conference_Location :
Pittsburgh, PA
Print_ISBN :
978-1-4244-1905-0
Electronic_ISBN :
1932-5517
DOI :
10.1109/PES.2008.4596083
