Abstract
Accurate real-time estimation of the four electromechanical oscillation properties, i.e., dominant oscillation modes, mode shapes, participation factors, and coherent groups, is of great importance to assess and mitigate potential electromechanical oscillations in interconnected power systems. While eigenvalue analysis can realize such estimation, it requires precise linearized dynamic models and accurate parameters, which are highly difficult to obtain in practice. Data fusion-based modal estimation methods can extract the properties of electromechanical oscillations from measurement data without the power system model and parameters, but most of the time only one or two property assessments can be accomplished each time. To overcome this challenge, this paper presents a synergistic data analytics solution to characterize the dynamic behaviors of electromechanical oscillations from real-time measurement data. The proposed method uses optimized variable projection, and it is capable of estimating all four electromechanical oscillation behavior properties from measured responses. Case studies are performed using the simulated measurement data of a 16-generator 68-bus test system and the field measurements collected by the PMUs deployed in the Yunnan Power Grid. The results demonstrate that the proposed synergistic data analytics solution can achieve satisfactory performance in capturing the properties of electromechanical oscillations from measurement data and exhibit strong robustness against measurement noise when compared with existing measurement-based methods.
Original language | English |
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Article number | 107610 |
Journal | International Journal of Electrical Power and Energy Systems |
Volume | 135 |
DOIs | |
State | Published - Feb 2022 |
Funding
The authors would like to acknowledge the support in part by the National Natural Science Foundation of China ( No. 51877033 ) and International Clean Energy Talent Programme (iCET) of China Scholarship Council.
Funders | Funder number |
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International Clean Energy Talent Programme | |
National Natural Science Foundation of China | 51877033 |
China Scholarship Council |
Keywords
- Coherent group
- Dominant mode
- Electromechanical oscillation
- Measurement data
- Mode shape
- Participation factor