Three-Phase Steady-State Model of Type-3 Wind Generation Unit—Part II: Model Validation and Applications

Author

Kamh, Mohamed Zakaria ; Iravani, Reza

Author_Institution

Dept. of Electr. & Comput. Eng., Univ. of Toronto, Toronto, ON, Canada

Volume

3

Issue

1

fYear

2012

Firstpage

41

Lastpage

48

Abstract

This paper presents the implementation and validation of the sequence-frame model of the Type-3 wind generation unit and the sequential sequence-frame power-flow solver (sequential-SFPS) algorithm, developed in the Part I of this paper. A set of case studies are reported to (1) validate the numerical accuracy of the developed model and the power-flow algorithm, (2) quantify the impact of the Type-3 control strategy on the steady-state three-phase power-flow solution, and (3) demonstrate the computational efficiency of the sequential-SFPS. Three test systems of different topologies, sizes, and parameters are examined. Where applicable, the results are validated based on comparison with the exact time-domain solution, using the PSCAD/EMTDC software tool.

Keywords

load flow control; numerical analysis; power generation control; software tools; time-domain analysis; wind power plants; PSCAD-EMTDC software tool; computational efficiency; model validation; numerical accuracy; sequential sequence-frame power flow solver algorithm; sequential-SFPS; steady state three phase power flow solution; test system; three phase steady-state model; time-domain solution; type-3 control strategy; type-3 wind generation unit; Accuracy; EMTDC; Mathematical model; Numerical models; PSCAD; Stators; Steady-state; Distributed energy resources; doubly fed asynchronous generator; three-phase power-flow analysis; wind turbine generating systems;

fLanguage

English

Journal_Title

Sustainable Energy, IEEE Transactions on

Publisher

ieee

ISSN

1949-3029

Type

jour

DOI

10.1109/TSTE.2011.2166415

Filename

6102288