Synthetic and Systemic Model for Power Quality Evaluation

This paper describes a synthetic (because it homologues and superpose various phenomena) and systemic (oriented to system's performance) model for power quality (PQ) assessment. The model proposes an n dimensional electromagnetic "incompatibility" (EMiC) vector, where each vector'...

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Hauptverfasser:	Lopera, J.A., Diez, A.E., Bohorque, J.A., Lopez, G.J., Diez, I.C., Mesa, S.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Electromagnetic measurements Extraterrestrial phenomena Flicker Frequency Harmonics IEC standards Power measurement Power quality Power system harmonics Power system modeling Power Systems System performance Voltage fluctuations
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creator	Lopera, J.A. Diez, A.E. Bohorque, J.A. Lopez, G.J. Diez, I.C. Mesa, S.
description	This paper describes a synthetic (because it homologues and superpose various phenomena) and systemic (oriented to system's performance) model for power quality (PQ) assessment. The model proposes an n dimensional electromagnetic "incompatibility" (EMiC) vector, where each vector's component evaluates a PQ phenomena that's independent from the others (in order to assure orthogonality between them) and must be conveniently normalized. By the use of computer simulation is shown that voltage fluctuation's quantification, using IEC's methodology (IEC 61000 standards), and harmonics quantification, using IEEE 519 std., are orthogonal components. The same method is used to show that the magnitude of the vector is proportional to energy supplied outside tolerable operational margins for equipment connected in the evaluation point's vicinity. This methodology offers to electric chain actors (utilities, system operator, consumers and regulator) a tool for assessment capable of establish the quantity of "bad" supplied energy
doi_str_mv	10.1109/TDCLA.2006.311374
format	Conference Proceeding
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The model proposes an n dimensional electromagnetic "incompatibility" (EMiC) vector, where each vector's component evaluates a PQ phenomena that's independent from the others (in order to assure orthogonality between them) and must be conveniently normalized. By the use of computer simulation is shown that voltage fluctuation's quantification, using IEC's methodology (IEC 61000 standards), and harmonics quantification, using IEEE 519 std., are orthogonal components. The same method is used to show that the magnitude of the vector is proportional to energy supplied outside tolerable operational margins for equipment connected in the evaluation point's vicinity. This methodology offers to electric chain actors (utilities, system operator, consumers and regulator) a tool for assessment capable of establish the quantity of "bad" supplied energy</abstract><pub>IEEE</pub><doi>10.1109/TDCLA.2006.311374</doi><tpages>4</tpages></addata></record>
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Electromagnetic measurements Extraterrestrial phenomena Flicker Frequency Harmonics IEC standards Power measurement Power quality Power system harmonics Power system modeling Power Systems System performance Voltage fluctuations
title	Synthetic and Systemic Model for Power Quality Evaluation
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