Isoperimetric clustering-based network partitioning algorithm for voltage–apparent power coupled areas

This work proposes a novel relative electrical distance measure that provides information of coupling between voltage and apparent power between two buses in power systems. Relative electrical distance measure is derived from the bus admittance matrix which can be obtained in real time using Phasor...

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Published inIET generation, transmission & distribution Vol. 13; no. 22; pp. 5109 - 5116
Main Authors Jay, Devika, Swarup, Kesasanakurty Shanti
Format Journal Article
LanguageEnglish
Published The Institution of Engineering and Technology 19.11.2019
Subjects
apparent power requirements
distance measurement
graph theory
isoperimetric clustering‐based algorithm
isoperimetric clustering‐based network partitioning algorithm
load flow
matrix algebra
novel relative electrical distance measure
partitioning power systems
pattern clustering
phase measurement
phasor measurement
power system
power system measurement
power system security
power system simulation
power system stability
power systems
Research Article
voltage–apparent power coupled areas
isoperimetric clustering-based algorithm
power system stability
power system measurement
graph theory
power system
phase measurement
power system simulation
power system security
matrix algebra
partitioning power systems
pattern clustering
distance measurement
voltage–apparent power coupled areas
power systems
isoperimetric clustering-based network partitioning algorithm
novel relative electrical distance measure
apparent power requirements
phasor measurement
load flow
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Abstract This work proposes a novel relative electrical distance measure that provides information of coupling between voltage and apparent power between two buses in power systems. Relative electrical distance measure is derived from the bus admittance matrix which can be obtained in real time using Phasor Measurement Units. Based on the relative electrical distance measure, in this work, an isoperimetric clustering based algorithm for partitioning power systems into voltage–apparent power coupled areas is proposed. The advantage of the partitioning algorithm proposed in this work is that large networks can be represented as a weighted graph with number of vertices equal to number of generators in the system which is much lesser than the size of system, thereby reducing the computational effort for partitioning. Isoperimetric clustering technique along with k-means is then applied to the graph to obtain voltage–apparent power coupled areas. Simulations carried out on New England 39-bus system and IEEE 118-bus system demonstrate the effectiveness of the proposed methodology for partitioning the system into voltage–apparent power coupled areas, subject to changes in the operating condition of the system. The quality of clustering is analysed and compared with Cheeger inequality bounds, which ensures that power system is well partitioned.
AbstractList This work proposes a novel relative electrical distance measure that provides information of coupling between voltage and apparent power between two buses in power systems. Relative electrical distance measure is derived from the bus admittance matrix which can be obtained in real time using Phasor Measurement Units. Based on the relative electrical distance measure, in this work, an isoperimetric clustering based algorithm for partitioning power systems into voltage–apparent power coupled areas is proposed. The advantage of the partitioning algorithm proposed in this work is that large networks can be represented as a weighted graph with number of vertices equal to number of generators in the system which is much lesser than the size of system, thereby reducing the computational effort for partitioning. Isoperimetric clustering technique along with k‐means is then applied to the graph to obtain voltage–apparent power coupled areas. Simulations carried out on New England 39‐bus system and IEEE 118‐bus system demonstrate the effectiveness of the proposed methodology for partitioning the system into voltage–apparent power coupled areas, subject to changes in the operating condition of the system. The quality of clustering is analysed and compared with Cheeger inequality bounds, which ensures that power system is well partitioned.
Author Swarup, Kesasanakurty Shanti
Jay, Devika
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  fullname: Jay, Devika
  organization: Department of Electrical Engineering, IIT Madras, Chennai, Tamil Nadu, India
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  givenname: Kesasanakurty Shanti
  surname: Swarup
  fullname: Swarup, Kesasanakurty Shanti
  email: swarup@ee.iitm.ac.in
  organization: Department of Electrical Engineering, IIT Madras, Chennai, Tamil Nadu, India
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Keywords isoperimetric clustering-based algorithm
power system stability
power system measurement
graph theory
power system
phase measurement
power system simulation
power system security
matrix algebra
partitioning power systems
pattern clustering
distance measurement
voltage–apparent power coupled areas
power systems
isoperimetric clustering-based network partitioning algorithm
novel relative electrical distance measure
apparent power requirements
phasor measurement
load flow
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Snippet This work proposes a novel relative electrical distance measure that provides information of coupling between voltage and apparent power between two buses in...
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wiley
iet
SourceType Enrichment Source
Index Database
Publisher
StartPage 5109
SubjectTerms apparent power requirements
distance measurement
graph theory
isoperimetric clustering‐based algorithm
isoperimetric clustering‐based network partitioning algorithm
load flow
matrix algebra
novel relative electrical distance measure
partitioning power systems
pattern clustering
phase measurement
phasor measurement
power system
power system measurement
power system security
power system simulation
power system stability
power systems
Research Article
voltage–apparent power coupled areas
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Title Isoperimetric clustering-based network partitioning algorithm for voltage–apparent power coupled areas
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