Modal Analysis for Grid Operations (MANGO)

PI:

Huang, Zhenyu (Henry)

Project Status:

Completed

The objective is the development of a grid operations procedure using modal analysis for improving grid stability based on phasor measurements. To meet this need, modal analysis will be further explored in this project to develop real-time applications for grid operations. In prior work, we have extensively studied the mechanism of power grid low-frequency oscillations and identified the correlation of low damping and power flow of key transmission lines and generators. A MANGO procedure was established.

Related Publications

Dosiek, Luke, Ning Zhou, John W Pierre, Zhenyu Huang, and Dan Trudnowski. "Mode shape estimation algorithms under ambient conditions: A comparative review." IEEE Transactions on Power Systems 28.2 (2013) 779 - 787.

Zhou, Ning, John W Pierre, and Dan Trudnowski. "Some considerations in using Prony analysis to estimate electromechanical modes." 2013 IEEE Power & Energy Society (PES) General Meeting. Vancouver, BC: IEEE, 2013. 1 - 5.

Zhou, Ning, John W Pierre, and Dan Trudnowski. "A Stepwise Regression Method for Estimating Dominant Electromechanical Modes." IEEE Transactions on Power Systems 27.2 (2012) 1051 - 1059.

Diao, Ruisheng, Zhenyu Huang, Ning Zhou, Yousu Chen, Francis K Tuffner, Jason C Fuller, Shuangshuang Jin, and Jeffery E Dagle. "Deriving optimal operational rules for mitigating inter-area oscillations." 2011 IEEE/PES Power Systems Conference and Exposition (PSCE). Phoenix, AZ, USA: IEEE, 2011. 1 - 8.

Chen, Yousu, Jason C Fuller, Ruisheng Diao, Ning Zhou, Zhenyu Huang, and Francis K Tuffner. "The influence of topology changes on inter-area oscillation modes and mode shapes." IEEE Power and Energy Society (PES) General Meeting. Detroit, MI, USA: IEEE, 2011. 1 - 7.

Huang, Zhenyu, Ning Zhou, Francis K Tuffner, and Dan Trudnowski. "Use of Modal Sensitivity to Operating Conditions for Damping Control in Power Systems." 2011 44th Hawaii International Conference on System Sciences (HICSS). Kauai, HI: IEEE, 2011. 1 - 9.

Zhou, Ning, Zhenyu Huang, Francis K Tuffner, John W Pierre, and Shuangshuang Jin. "Automatic implementation of Prony analysis for electromechanical mode identification from phasor measurements." IEEE Power and Energy Society (PES) General Meeting. Minneapolis, MN: IEEE, 2010. 1 - 8.

Huang, Zhenyu, Ning Zhou, Francis K Tuffner, Yousu Chen, Dan Trudnowski, William A Mittelstadt, John F Hauer, and Jeffery E Dagle. "Improving small signal stability through operating point adjustment." IEEE PES General Meeting. Minneapolis, MN: IEEE, 2010. 1 - 8.

Tuffner, Francis K, Zhenyu Huang, Ning Zhou, Ross T Guttromson, and Avnaesh Jayantilal. "Initial studies on actionable control for improving small signal stability in interconnected power systems." IEEE Power and Energy Society (PES) Transmission and Distribution Conference . New Orleans, LA, USA: IEEE, 2010. 1 - 6.

Huang, Zhenyu, Ruisheng Diao, Ning Zhou, Jason C Fuller, Francis K Tuffner, William A Mittelstadt, Yousu Chen, John F Hauer, Dan Trudnowski, and Jeffery E Dagle. MANGO - Modal Analysis for Grid Operation: A Method for Damping Improvements through Operating Point Adjustment. 2010.

Related Files

PDF (2.69 MB)

Pierre, John W, Ning Zhou, Francis K Tuffner, John F Hauer, Dan Trudnowski, and William A Mittelstadt. "Probing Signal Design for Power System Identification." IEEE Transactions on Power Systems 25.2 (2010) 835 - 843.

Zhou, Ning, Zhenyu Huang, Luke Dosiek, Dan Trudnowski, and John W Pierre. "Electromechanical mode shape estimation based on transfer function identification using PMU measurements." 2009 IEEE Power & Energy Society General Meeting. Calgary, Canada: IEEE, 2009. 1 - 7.

Huang, Zhenyu, T. Nguyen, Dmitry Kosterev, and R. Guttromson. "Model Validation of Power System Components Using Hybrid Dynamic Simulation." 2005/2006 IEEE PES Transmission & Distribution Conference. Dallas, TX, USA: IEEE, 2006. 153 - 160.