Optimal PMU arrangement considering limited channel capacity and transformer tap settings

The transition from the conventional power systems to smart grids has led to the modernisation of the measuring infrastructure used for their monitoring and control. Among the devices used to accomplish these tasks, phasor measurement units (PMUs) play a key role since they can provide extremely acc...

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Bibliographic Details
Published in:IET generation, transmission & distribution transmission & distribution, 2020-12, Vol.14 (24), p.5984-5991
Main Authors: Manousakis, Nikolaos M, Korres, George N
Format: Article
Language:English
Subjects:
8‐bus test system
adjacent valid measurements
binary semidefinite programming
conventional power systems
current phasor measurements
extremely accurate synchronised voltage
IEEE systems
large‐scale power systems
limited channel capacity
mathematical programming
OPP problem
OPP techniques
optimal PMU arrangement
optimal PMU placement problem
phase‐shifting angle
phasor measurement
phasor measurement units
PMU channel capacity
Polish 3120‐bus system
power transformers
Research Article
smart grids
smart power grids
substations
substation‐oriented OPP method
system observability
transformer tap setting
voltage turns ratio
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Summary:The transition from the conventional power systems to smart grids has led to the modernisation of the measuring infrastructure used for their monitoring and control. Among the devices used to accomplish these tasks, phasor measurement units (PMUs) play a key role since they can provide extremely accurate synchronised voltage and current phasor measurements. The optimal PMU placement (OPP) problem, which focuses on minimising the number of PMUs for full system observability, has long been a popular research topic. The vast majority of the available OPP techniques have treated each transformer tap setting (voltage turns ratio and phase-shifting angle) as a fixed network parameter. Such an assumption can lead to misdirecting residuals in adjacent valid measurements when the modelled tap setting is incorrect. The aim of this study is to propose a substation-oriented OPP method based on a binary semidefinite programming algorithm, considering the observability of the transformer tap settings and the limited PMU channel capacity. The method is illustrated using an 8-bus test system. Numerical results using different size IEEE systems are presented and discussed. The proposed approach is further applied to the Polish 3120-bus system to show its efficacy in solving the OPP problem for large-scale power systems.
ISSN:1751-8687
1751-8695
DOI:10.1049/iet-gtd.2019.1951