Title :
EMTDC Based Simulation of 10 MW Class Grid-Connected Superconducting Wind Turbine Generator
Author :
Kim, Gon-Ho ; Kim, Nam ; Kim, K.-M. ; Park, Mirang ; Yu, I.-K. ; Lee, S. ; Park, T.-J.
Author_Institution :
Dept. of Electr. Eng., Changwon Nat. Univ., Changwon, South Korea
fDate :
6/1/2012 12:00:00 AM
Abstract :
It is believed that the size of wind turbines on offshore wind farms can be increased up to 10 MW. A superconducting synchronous generator (SCSG) is advantageous to a large-scale wind turbine because of its weight and volume. In this paper, a grid-connected large-scale superconducting wind turbine generator is analysed under varying wind speeds. A 10 MW SCSG is designed by the finite elements method (FEM). The parameters of the designed SCSG are calculated and applied to a modeled SCSG in a Power System Computer Aided Design/Electromagnetic Transients including DC. The electric and dynamic performances of superconducting wind turbine generators are analysed in this simulation. This paper shows the effectiveness of the grid-connected superconducting wind turbine generator for offshore applications.
Keywords :
EMTP; finite element analysis; offshore installations; superconducting devices; wind turbines; EMTDC based simulation; FEM; PSCAD/EMTDC; SCSG; class grid-connected superconducting wind turbine generator; finite elements method; grid-connected large-scale superconducting wind turbine generator; offshore applications; offshore wind farms; power 10 MW; power system computer aided design/electromagnetic transients; superconducting synchronous generator; wind turbines; Finite element methods; Generators; High temperature superconductors; Stators; Superconducting transmission lines; Wind turbines; Windings; PSCAD/EMTDC; superconducting generator; superconductivity; wind power generation;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2011.2177797
