Distributed MPC for interconnected power system

Author

Nong Huiyun ; Liu Xiangjie

Author_Institution

Sch. of Control & Comput. Eng., North China Electr. Power Univ., Beijing, China

fYear

2013

Firstpage

4068

Lastpage

4072

Abstract

In practical power system, there exist two critical nonlinear factors, e.g., the valve limit on the governor and the generation rate constraints (GRC). In this paper, the distributed model predictive control (DMPC) based on T-S fuzzy model is presented. The valve limit on the governor is modeled by a T-S model so that the local predictive controllers are incorporated into the nonlinear control system. And DMPC is employed to tackle with the GRC problem. The model of the whole system is decomposed into subsystems and then obtains a local objective for each subsystem. The proposed methodology is tested with a four-area interconnected power system. Simulation results demonstrate the effectiveness of the proposed algorithm.

Keywords

fuzzy control; power system control; power system interconnection; predictive control; GRC problem; T-S fuzzy model; critical nonlinear factors; distributed MPC; distributed model predictive control; four-area interconnected power system; generation rate constraints; local objective; local predictive controllers; nonlinear control system; valve limit; Automatic generation control; Frequency control; Generators; Mathematical model; Optimization; Power systems; Valves; T-S fuzzy model; distributed MPC; interconnected power system; multi-source;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (CCC), 2013 32nd Chinese

Conference_Location

Xi´an

Type

conf

Filename

6640132