An equivalent model for sub-synchronous oscillation analysis in direct-drive wind farms with VSC-HVDC systems

Abstract Field experiences have shown that sub-synchronous oscillation (SSO) can occur in direct-drive wind farms with VSC-HVDC systems. Due to the complexity of the detailed wind farm model, a dynamic equivalent model, with a reasonable order reduction of the detailed model and still reflecting inside-wind-farm and wind-farm-grid SSO characteristics is essential. In this paper, based on the principle that similar matrices have identical eigenvalues, the SSO analysis of an N-machine wind farm with VSC-HVDC system is conducted by simplifying it into two single-machine systems. The modeling method of the two single-machine systems is presented. Four case studies are presented to verify the effectiveness of the proposed model when compared with the detailed model in various scenarios. The proposed model is also benchmarked with the output multiplication-based equivalent model (OMM). Comparison results show that although the system order is reduced significantly, the proposed simplified equivalent model can still reflect inside-wind-farm and wind-farm-grid SSO modes in various scenarios. Meanwhile, the rationality of the OMM in terms of the wind-farm-grid SSO analysis is verified theoretically.

[1]  Zhe Chen,et al.  Aggregated models and transient performances of a mixed wind farm with different wind turbine generator systems , 2012 .

[2]  Long Zhao,et al.  Robustness Analysis of Dynamic Equivalent Model of DFIG Wind Farm for Stability Study , 2018, IEEE Transactions on Industry Applications.

[3]  Dianguo Xu,et al.  A Practical Equivalent Method for DFIG Wind Farms , 2018, IEEE Transactions on Sustainable Energy.

[4]  P. Kundur,et al.  Power system stability and control , 1994 .

[5]  Haifeng Wang,et al.  Small-Signal Stability Limit of a Grid-Connected PMSG Wind Farm Dominated by the Dynamics of PLLs , 2020, IEEE Transactions on Power Systems.

[6]  Bikash C. Pal,et al.  Electrical Oscillations in Wind Farm Systems: Analysis and Insight Based on Detailed Modeling , 2016, IEEE Transactions on Sustainable Energy.

[7]  Wenhui Shi,et al.  Multi-machine equivalent model parameter identification method for double-fed induction generator (DFIG)-based wind power plant based on measurement data , 2009 .

[8]  Richard Gagnon,et al.  Validation of Single- and Multiple-Machine Equivalents for Modeling Wind Power Plants , 2011 .

[9]  Kevin J. Dyke,et al.  The Adequacy of the Present Practice in Dynamic Aggregated Modeling of Wind Farm Systems , 2017, IEEE Transactions on Sustainable Energy.

[10]  Yinfeng WANG,et al.  Comprehensive modeling and parameter identification of wind farms based on wide-area measurement systems , 2016 .

[11]  Zhi An,et al.  Evaluation Method for Equivalent Models of PMSG-Based Wind Farms Considering Randomness , 2019, IEEE Transactions on Sustainable Energy.

[12]  Xiaorong Xie,et al.  Overview of emerging subsynchronous oscillations in practical wind power systems , 2019, Renewable and Sustainable Energy Reviews.

[13]  Wenjuan Du,et al.  A Method of Reduced-Order Modal Computation for Planning Grid Connection of a Large-Scale Wind Farm , 2020, IEEE Transactions on Sustainable Energy.

[14]  Ruiming Fang,et al.  Application of gray relational analysis to k-means clustering for dynamic equivalent modeling of wind farm , 2017 .

[15]  Bikash Pal,et al.  Stability Analysis of a PMSG-Based Large Offshore Wind Farm Connected to a VSC-HVDC , 2017, 2018 IEEE Power & Energy Society General Meeting (PESGM).

[16]  Zezhou Yang,et al.  Dynamic Aggregation Modeling of Grid-Connected Inverters Using Hamilton's-Action-Based Coherent Equivalence , 2019, IEEE Transactions on Industrial Electronics.

[17]  Yan Yan,et al.  A Fuzzy Clustering Algorithm-Based Dynamic Equivalent Modeling Method for Wind Farm With DFIG , 2015, IEEE Transactions on Energy Conversion.

[18]  Congqi Yin,et al.  Review of oscillations in VSC‐HVDC systems caused by control interactions , 2018, The Journal of Engineering.

[19]  Xu Cai,et al.  Frequency Domain Stability Analysis of MMC-Based HVdc for Wind Farm Integration , 2016, IEEE Journal of Emerging and Selected Topics in Power Electronics.

[20]  Marta Molinas,et al.  Understanding the Origin of Oscillatory Phenomena Observed Between Wind Farms and HVdc Systems , 2017, IEEE Journal of Emerging and Selected Topics in Power Electronics.

[21]  Jinyu Wen,et al.  Offshore Wind Farm Integration and Frequency Support Control Utilizing Hybrid Multiterminal HVDC Transmission , 2014, IEEE Transactions on Industry Applications.

[22]  Hui Liu,et al.  Characteristic Analysis of Subsynchronous Resonance in Practical Wind Farms Connected to Series-Compensated Transmissions , 2017, IEEE Transactions on Energy Conversion.

[23]  Dianguo Xu,et al.  An Improved Single-Machine Equivalent Method of Wind Power Plants by Calibrating Power Recovery Behaviors , 2018, IEEE Transactions on Power Systems.

[24]  Magdy El-Marsafawy,et al.  Wind farm dynamic models assessment under weak grid conditions , 2018 .

[25]  Xiaorong Xie,et al.  A REVIEW OF EMERGING SSR/SSO ISSUES AND THEIR CLASSIFICATIONS , 2017 .