NETWORK-CENTRIC TECHNOLOGIES FOR CONTROL OF THREE-PHASE NETWORK OPERATION MODES

Purpose. The development of the control system for three-phase network is based on intelligent technologies of network-centric control of heterogeneous objects. The introduction of unmanned aerial vehicles for monitoring of three-phase network increases the efficiency of management. Methodology. The...

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Autores principales: Ye. I. Sokol, Iu. A. Sirotin, T. S. Ierusalimova, O. G. Gryb, S. V. Shvets, D. A. Gapon
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Lenguaje:EN
RU
UK
Publicado: National Technical University "Kharkiv Polytechnic Institute" 2017
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Acceso en línea:https://doaj.org/article/b991fd80e40e48a89b75fad5a52fe63b
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spelling oai:doaj.org-article:b991fd80e40e48a89b75fad5a52fe63b2021-12-02T16:19:18ZNETWORK-CENTRIC TECHNOLOGIES FOR CONTROL OF THREE-PHASE NETWORK OPERATION MODES10.20998/2074-272X.2017.3.102074-272X2309-3404https://doaj.org/article/b991fd80e40e48a89b75fad5a52fe63b2017-06-01T00:00:00Zhttp://eie.khpi.edu.ua/article/view/2074-272X.2017.3.10/100705https://doaj.org/toc/2074-272Xhttps://doaj.org/toc/2309-3404Purpose. The development of the control system for three-phase network is based on intelligent technologies of network-centric control of heterogeneous objects. The introduction of unmanned aerial vehicles for monitoring of three-phase network increases the efficiency of management. Methodology. The case of decomposition of the instantaneous capacities of the fixed and variable components for 3-wire system. The features of power balance for the different modes of its functioning. It should be noted that symmetric sinusoidal mode is balanced and good, but really unbalanced, if the standard reactive power is not zero. To solve the problem of compensation is sufficient knowledge of the total value of the inactive components of full power (value of the inactive power) without detail. The creation of a methodology of measurement and assessment will require knowledge of the magnitudes of each inactive component separately, which leads to the development of a unified approach to the measurement and compensation of inactive components of full power and the development of a generalized theory of power. Results. Procedure for the compensation of the current of zero sequence excludes from circuit the source, as the active component of instantaneous power of zero sequence, and a vector due to a current of zero sequence. This procedure is performed without time delay as it does not require integration. Only a 3–wire system with symmetrical voltage eliminates pulsations and symmetrization of the equivalent conductances of the phases of the task. Under asymmetric voltage, the power is different, its analysis requires the creation of a vector mathematical model of the energy processes of asymmetrical modes of 3–phase systems. Originality. The proposed method extends the basis of the vector method for any zero sequence voltages and shows that the various theories of instantaneous power three wired scheme due to the choice of a basis in a two-dimensional subspace. Practical value. The algorithm and software implementation for the decomposition of the zero sequence current, which allocated the procedure of obtaining null-balanced vectors of phase and interfacial voltage, calculation of active and inactive instantaneous power is zero balanced mode. The simulation results obtained in the software package Matlab by the method of visual programming in Simulink.Ye. I. SokolIu. A. SirotinT. S. IerusalimovaO. G. GrybS. V. ShvetsD. A. GaponNational Technical University "Kharkiv Polytechnic Institute"articlenetwork-centric controlunmanned aerial vehiclelossesqualitymonitoringinstantaneous powerElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENRUUKElectrical engineering & Electromechanics, Iss 3, Pp 67-71 (2017)
institution DOAJ
collection DOAJ
language EN
RU
UK
topic network-centric control
unmanned aerial vehicle
losses
quality
monitoring
instantaneous power
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
spellingShingle network-centric control
unmanned aerial vehicle
losses
quality
monitoring
instantaneous power
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
Ye. I. Sokol
Iu. A. Sirotin
T. S. Ierusalimova
O. G. Gryb
S. V. Shvets
D. A. Gapon
NETWORK-CENTRIC TECHNOLOGIES FOR CONTROL OF THREE-PHASE NETWORK OPERATION MODES
description Purpose. The development of the control system for three-phase network is based on intelligent technologies of network-centric control of heterogeneous objects. The introduction of unmanned aerial vehicles for monitoring of three-phase network increases the efficiency of management. Methodology. The case of decomposition of the instantaneous capacities of the fixed and variable components for 3-wire system. The features of power balance for the different modes of its functioning. It should be noted that symmetric sinusoidal mode is balanced and good, but really unbalanced, if the standard reactive power is not zero. To solve the problem of compensation is sufficient knowledge of the total value of the inactive components of full power (value of the inactive power) without detail. The creation of a methodology of measurement and assessment will require knowledge of the magnitudes of each inactive component separately, which leads to the development of a unified approach to the measurement and compensation of inactive components of full power and the development of a generalized theory of power. Results. Procedure for the compensation of the current of zero sequence excludes from circuit the source, as the active component of instantaneous power of zero sequence, and a vector due to a current of zero sequence. This procedure is performed without time delay as it does not require integration. Only a 3–wire system with symmetrical voltage eliminates pulsations and symmetrization of the equivalent conductances of the phases of the task. Under asymmetric voltage, the power is different, its analysis requires the creation of a vector mathematical model of the energy processes of asymmetrical modes of 3–phase systems. Originality. The proposed method extends the basis of the vector method for any zero sequence voltages and shows that the various theories of instantaneous power three wired scheme due to the choice of a basis in a two-dimensional subspace. Practical value. The algorithm and software implementation for the decomposition of the zero sequence current, which allocated the procedure of obtaining null-balanced vectors of phase and interfacial voltage, calculation of active and inactive instantaneous power is zero balanced mode. The simulation results obtained in the software package Matlab by the method of visual programming in Simulink.
format article
author Ye. I. Sokol
Iu. A. Sirotin
T. S. Ierusalimova
O. G. Gryb
S. V. Shvets
D. A. Gapon
author_facet Ye. I. Sokol
Iu. A. Sirotin
T. S. Ierusalimova
O. G. Gryb
S. V. Shvets
D. A. Gapon
author_sort Ye. I. Sokol
title NETWORK-CENTRIC TECHNOLOGIES FOR CONTROL OF THREE-PHASE NETWORK OPERATION MODES
title_short NETWORK-CENTRIC TECHNOLOGIES FOR CONTROL OF THREE-PHASE NETWORK OPERATION MODES
title_full NETWORK-CENTRIC TECHNOLOGIES FOR CONTROL OF THREE-PHASE NETWORK OPERATION MODES
title_fullStr NETWORK-CENTRIC TECHNOLOGIES FOR CONTROL OF THREE-PHASE NETWORK OPERATION MODES
title_full_unstemmed NETWORK-CENTRIC TECHNOLOGIES FOR CONTROL OF THREE-PHASE NETWORK OPERATION MODES
title_sort network-centric technologies for control of three-phase network operation modes
publisher National Technical University "Kharkiv Polytechnic Institute"
publishDate 2017
url https://doaj.org/article/b991fd80e40e48a89b75fad5a52fe63b
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AT tsierusalimova networkcentrictechnologiesforcontrolofthreephasenetworkoperationmodes
AT oggryb networkcentrictechnologiesforcontrolofthreephasenetworkoperationmodes
AT svshvets networkcentrictechnologiesforcontrolofthreephasenetworkoperationmodes
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