Reusing Three-Phase Power-Flow Object Components for Unbalanced Harmonic Analysis

In this paper, the harmonic penetration method is developed as a component-based application. The direct nodal voltage harmonic solution is developed as an independent software component and then integrated with existing three-phase power-flow software components. The harmonic solution reuses many f...

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Hauptverfasser: Nor, K.M., Jeun, L.W., Abdel-Akher, M., Abdul-Rashid, A.H.
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Abdul-Rashid, A.H.
description In this paper, the harmonic penetration method is developed as a component-based application. The direct nodal voltage harmonic solution is developed as an independent software component and then integrated with existing three-phase power-flow software components. The harmonic solution reuses many facilities available in the fundamental frequency power-flow object components. The nonlinear devices such as six pulse converters are modeled as entity objects and inherited from the basic object-oriented power-system device model at fundamental frequency. Also, the linear solver also is reused form the power-flow component library. The application of object components shows that the development of complicated algorithms becomes easy due to the high code reusability.
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subjects Admittance
Application software
Frequency
Harmonic analysis
Libraries
object components
Object oriented modeling
Power system harmonics
Power system modeling
Power system simulation
symmetrical networks
three-phase harmonic power-flow
three-phase power-flow
Voltage
title Reusing Three-Phase Power-Flow Object Components for Unbalanced Harmonic Analysis
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