Abstract
With the increasing capacity of wind farms integrated into the power grid, the short-circuit current analysis for wind farms becomes more and more important. Since the wind turbine is usually integrated into the power grid via power electronic devices, the “crowbar” is installed in the wind turbine to protect the power electronic devices and to improve the fault ride through capability. The impact of the crowbar has to be considered during the short-circuit current analysis for the wind farm. In order to fully analyze the short-circuit current characteristics of a wind farm, the short-circuit currents for a doubly-fed induction generator (DFIG) wind turbine under symmetrical and asymmetrical faults considering the crowbar action characteristic are derived firstly. Then the action situation of the crowbar of a DFIG wind turbine is studied and the action area curve is obtained. Taking the crowbar action, or not, as the grouping criterion, wind turbines in the wind farm are divided into two groups, and the wind farm is aggregated into two equivalent wind turbines. Using the equivalent model, the short-circuit current of a wind farm can be calculated accurately. Finally, simulations are performed in MATLAB/Simulink which is the commercial math software produced by the MathWorks company in Natick, Massachusetts, the United States to verify the proposed short-circuit current calculation method for the DFIG wind farm.
Highlights
With the increasing capacity of wind farms (WF) integrated into the power grid, the impact of WFs on the operation of power grid becomes more and more significant [1]
Simulations are performed in MATLAB/Simulink which is the commercial math software produced by the MathWorks company in Natick, Massachusetts, the United States to verify the proposed short-circuit current calculation method for the doubly-fed induction generator (DFIG) wind farm
The result of the fault analysis and the evaluation of protection action characteristics are affected by imprecise short-circuit current calculations, and it is of great significance to the electric design of the WF
Summary
With the increasing capacity of wind farms (WF) integrated into the power grid, the impact of WFs on the operation of power grid becomes more and more significant [1]. The effect of the crowbar has to be considered in the short-circuit current analysis for the power grid integrated with large-scale WFs. Previously, a great deal of studies have been carried out to study the short-circuit current of WTs with DFIG. WF under and power asymmetrical grid faults are presented firstly, where the action of Crowbar can be considered. WF consisting of 36 WTs which has considered the wake effect and is close to the actual WF is in MATLAB/Similink, which is the commercial math software produced by the MathWorks company performed in MATLAB/Similink, which is the commercial math software produced by the in Natick, Massachusetts, the United States and approximates the real-time operating conditions.
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