" Online Modern Philosophy for Stability Detection Based on Critical Energy of Individual Machines" ; International Journal of Scientific Research Engineering Technology ( IJSRET), Volume 1, Issue 4, July-2015, ISSN (Online): 2395-566X, pp 50-57
International Journal of Scientific Research Engineering Technology ( IJSRET) Volume 1, Issue 4, July-2015, ISSN (Online): 2395-566X, pp 50-57 • 2015
Publication Information
Authors
Wagdy M. MANSOUR , Mohamed A. ALI , Nader SH. ABDELHAKEEM
Keywords
Not Available
Journal
International Journal of Scientific Research Engineering Technology ( IJSRET) Volume 1, Issue 4, July-2015, ISSN (Online): 2395-566X, pp 50-57
Publisher
Not Available
Volume
Volume 1
Issue
Issue 4
Pages
pp. 50-57
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
This paper introduces a proposed modern philosophy/algorithm for transient stability assessment based on critical energy function of individual machines.
The algorithm depends on the creation of energy function for individual machines using the online measurements via the Synchronized Phasor Measurement Units (SPMUs). For further speeding up the algorithm for online assessment, a parallel algorithm for stability assessment is implemented.
The proposed algorithm makes online calculation the potential and kinetic energies for each machine in power system and then compares the total system energy to the critical energy of the system. A decision based on the online comparison produces an output operand according to stability situation of the power system.
The proposed algorithm is tested by two machine infinite Bus test system to ensure its effectiveness and validity.
The algorithm depends on the creation of energy function for individual machines using the online measurements via the Synchronized Phasor Measurement Units (SPMUs). For further speeding up the algorithm for online assessment, a parallel algorithm for stability assessment is implemented.
The proposed algorithm makes online calculation the potential and kinetic energies for each machine in power system and then compares the total system energy to the critical energy of the system. A decision based on the online comparison produces an output operand according to stability situation of the power system.
The proposed algorithm is tested by two machine infinite Bus test system to ensure its effectiveness and validity.
Staff Members - Benha University