Title :
Simulating dynamic interactions of grid-linked wind turbines
Author :
Chedid, R. ; LaWhite, N. ; Ilic, M.
Author_Institution :
American Univ. of Beirut, Lebanon
Abstract :
Models for dynamic interaction of wind turbine generators (WTGs) on electric utility networks have been suggested, but only a few publications have addressed the aggregation of hundreds of turbine generators. This topic has a significant impact on studies related to power system dynamics, because it helps reduce system complexity and computation cost. This article features a study that set out to: simulate the electromechanical dynamics of a typical grid-connected wind turbine generator, test an aggregation technique for representing a group of WTGs by a single unit, and demonstrate how such a complicated analysis of interconnected systems can be performed using state-of-the art software that performs both numerical simulation and linearized eigenstructure studies. The SIMULINK software simplifies the analysis of the interconnected power systems, performing both numerical simulation and linearized eigenstructure studies.<>
Keywords :
digital simulation; eigenvalues and eigenfunctions; power system analysis computing; wind turbines; SIMULINK software; aggregation technique testing; dynamic interactions simulation; electric utility networks; electromechanical dynamics; grid-connected wind turbine generator; grid-linked wind turbines; interconnected power systems; linearized eigenstructure studies; numerical simulation; power system dynamics; state-of-the art software; Numerical simulation; Performance analysis; Performance evaluation; Power system analysis computing; Power system dynamics; Power system interconnection; Power system simulation; Software performance; Wind energy generation; Wind turbines;
Journal_Title :
Computer Applications in Power, IEEE
