120 / 2024-07-31 20:04:04
Control strategy and system operation stability analysis of grid type direct drive wind turbines
Grid type direct drive wind turbines; Inertial synchronous control; Coordination control; Eigenvalue analysis; Complex torque coefficient method
Final Paper
Jiaqi Tang / Wuhan University
Jingyi Zhang / Wuhan University
Zhen Tian / Wuhan University
Yicong Li / Wuhan University
Zhe Wang / Wuhan University
Fei Liu / Wuhan University
With the continuous increase in the proportion of wind power in the power system, improving the inertia support and frequency response capability of wind farms has become a research hotspot. This article applies the inertia synchronization control strategy and proposes a coordinated control strategy for DC networking and flexible DC systems. And a small signal model of the direct drive wind turbines grid connected system based on inertial synchronization control is established. Through eigenvalue analysis, it is found that introducing inertial synchronization control would reduce system stability. And using the "complex torque coefficient method", the mechanism of inertia synchronization control reducing the stability of the system operation from the perspective of damping characteristics is revealed, providing guidance for the improvement of inertia synchronization control method. The effectiveness and theoretical analysis of the proposed strategy were verified through PSCAD and Matlab platforms.
Important Date
  • Conference Date

    Nov 06

    2024

    to

    Nov 08

    2024

  • Sep 15 2024

    Draft paper submission deadline

  • Nov 08 2024

    Registration deadline

Sponsored By
Huazhong University of Science and Technology
Contact Information