Guorong Zhu’s research while affiliated with Wuhan University of Technology and other places

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Publications (2)


Enhanced control and operation for brushless doubly-fed induction generator based wind turbine system under grid voltage unbalance
  • Article

June 2022

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24 Reads

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8 Citations

Electric Power Systems Research

Sheng Hu

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Guorong Zhu

This paper presents an enhanced control and operation for brushless doubly-fed induction generator (BDFIG) based wind turbine system under grid voltage unbalance by considering the controls of machine side converter(MSC) and grid side converter(GSC) together. The MSC is controlled to eliminate torque oscillations and realize decoupling control of power winding(PW) average active and reactive power while the GSC is controlled to eliminate oscillations in the total output active power. A single current closed-loop controller composed of a positive sequence current controller in the positive synchronous reference frame and a negative sequence current controller in the negative synchronous reference frame is designed for both MSC and GSC. To achieve decoupling control and improve system dynamic response, in current loops, all the disturbances and cross-coupling terms are derived and used for feedforward control. A fast sequence decomposition algorithm is employed to reduce the considerable time delays of using notch filers. In order to validate the effectiveness of proposed control, simulations for a 2WM BDFIG based wind generation system were carried out, the results demonstrated that the proposed control can effectively eliminate oscillations of BDFIG torque and total output active power, and has good dynamic and stable performance.


FIGURE 1. Configuration of BDFIG-based wind turbine system.
FIGURE 2. Three phase windings of BDFIG.
FIGURE 3. Equivalent circuit of a BDFIG in PW reference frame
Modeling and Coordinated Control Design for Brushless Doubly-Fed Induction Generator-Based Wind Turbine to Withstand Grid Voltage Unbalance
  • Article
  • Full-text available

April 2021

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128 Reads

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10 Citations

IEEE Access

Grid codes require wind turbines to have capability to withstand a certain grid voltage unbalance without tripping. However, existing controls for brushless doubly-fed induction generator (BDFIG) based wind turbine under grid unbalance have many problems such as difficulty in realizing decoupling control, involvement with flux or current estimations, and complex control structure. Moreover, the existing studies only focused on the control of machine side converter (MSC), but the coordinated control between MSC and grid side converter (GSC) and the control objectives of overall BDFIG wind turbine system have not yet been addressed so far. To overcome these problems and improve the control capability, this paper proposes a coordinated control strategy by considering MSC and GSC together. First, the enhanced control objectives for overall BDFIG wind turbine system are determined. Second, the simple single current closed-loop controllers without involving with any flux or current estimations are designed for MSC and GSC, respectively. Meanwhile, in current loops, all the disturbances and cross-coupling terms on dq axes are derived and used for feedforward control so as to achieve decoupling control and improve system dynamic response. Further, a fast sequence decomposition approach is employed to enhance the control characteristics of the whole system. Finally, the effectiveness of proposed control is validated through case studies for a 2 MW BDFIG based wind generation system. The results demonstrate that the proposed control can effectively achieve the control objectives of overall wind turbine system under grid voltage unbalance and provide excellent dynamic and stable performance.

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Citations (2)


... For these reasons, the BDFG is regarded as an ideal alternative for traditional DFIG. The running of the BDFG includes stand-alone [5][6][7][8] and grid-connected modes [1][2][3][9][10][11][12][13][14][15][16][17][18]. The basic topology of a grid-connected BDFG-based wind turbine (BDFGWT) is depicted in Figure 1. ...

Reference:

An Improved Collaborative Control Scheme to Resist Grid Voltage Unbalance for BDFG-Based Wind Turbine
Enhanced control and operation for brushless doubly-fed induction generator based wind turbine system under grid voltage unbalance
  • Citing Article
  • June 2022

Electric Power Systems Research

... For these reasons, the BDFG is regarded as an ideal alternative for traditional DFIG. The running of the BDFG includes stand-alone [5][6][7][8] and grid-connected modes [1][2][3][9][10][11][12][13][14][15][16][17][18]. The basic topology of a grid-connected BDFG-based wind turbine (BDFGWT) is depicted in Figure 1. ...

Modeling and Coordinated Control Design for Brushless Doubly-Fed Induction Generator-Based Wind Turbine to Withstand Grid Voltage Unbalance

IEEE Access