ВОПРОСЫ ПОСТРОЕНИЯ ИНТЕГРИРОВАННОЙ СИСТЕМЫ УПРАВЛЕНИЯ ВОЗБУЖДЕНИЕМ СИНХРОННЫХ МАШИН В ОБЪЕДИНЕННОЙ ЭНЕРГОСИСТЕМЕ

О.М.  Agamalov; O.F.  Butkevych

No. 4 (2015), Electric Power Systems and Installations

No. 4 (2015)

Electric Power Systems and Installations

THE QUESTIONS OF AN INTEGRATED EXCITATION CONTROL SYSTEM OF SYNCHRONOUS MACHINES СONSTRUCTION IN THE INTERCONNECTED POWER SYSTEM

Published 2015-06-15

О.М. Agamalov ⁺⁻
O.F. Butkevych ⁺⁻

О.М. Agamalov

Tashlyk pumped-storage power plant of separate division South-Ukrainian nuclear power plant of National Nuclear Generating Company “Energoatom”, Yuzhnoukrainsk, 55000, Ukraine

O.F. Butkevych

Institute of Electrodynamics of the National Academy of Science of Ukraine, Peremohy av., 56, Kyiv-57, 03680, Ukraine

ARTICLE_10_PDF (Українська)

Keywords

Interconnected power system
automatic excitation control of synchronous machines
low-frequency oscillations
damping
phasor measurement unit объединенная энергосистема
автоматическое управление возбуждением синхронных машин
низкочастотные колебания
демпфирование
устройство векторных измерений

How to Cite

[1]

Agamalov О. and Butkevych , O. 2015. THE QUESTIONS OF AN INTEGRATED EXCITATION CONTROL SYSTEM OF SYNCHRONOUS MACHINES СONSTRUCTION IN THE INTERCONNECTED POWER SYSTEM . Tekhnichna Elektrodynamika. 4 (Jun. 2015), 057.

Abstract

Some peculiarities of an integrated automatic excitation control system of synchronous machines (AECS SM) construction in an interconnected power system (IPS) are presented. Phasor measurement units and AECS SM with magnitudephase excitation controller are used in such construction. The main purpose of such system is to damp low-frequency electromechanical oscillations in IPS. References 10, figure 1.

ARTICLE_10_PDF (Українська)

References

Butkevych O.F. Problem-oriented monitoring of the Ukrainian IPS operation conditions // Tekhnichna Elektrodynamika. – 2007. – No 5. – Pp. 39-52. (Ukr)

Agamalov O. Physical Processes in the Damping of Electromechanical Oscillations of the Synchronous Machine with Magnitude-Phase Excitation Controller // International Journal of Energy and Power Engineering. – 2013. – Vol. 2. – No 4. – Pp. 164-171. [Online]. Available at: http://article.sciencepublishinggroup.com/pdf/10.11648.j.ijepe.20130204.14.pdf

Butkevych O., Аgamalov O. Power System Stability and Robustness of Synchronous Machine’s Excitation Control with Magnitude-Phase Voltage Regulator // Tekhnichna Elektrodynamika. – 2014. – No 5. – Pp. 41-43.

Hauer J.F., Demeure C.J., Scharf L.L. Initial Results in Prony Analysis of Power System Response Signals // IEEE Transaction on Power System. – 1990. – Vol. 5. – No. 1. – Pp. 80-89.

Huang N.E., Wu M.L.C., Long S.R., Shen S.S.P., Qu W., Gloersen P., Fan K.L. A confidence limit for the empirical mode decomposition and Hilbert spectral analysis // Proc. of the Royal Soc. Lond. A. – 2003. – Vol. 459. – Pp. 2317-2345.

Jakpattanajit C., Hoonchareon N., Yokoyama A. On-line Estimation of Power System Low Frequency Oscillatory Modes in Large Power Systems // Journal of International Council on Electrical Engineering. – 2011. – Vol. 1. – No 3. – Pp. 352-358.

Kyrylenko O., Butkevych O., Chyzhevskyi V. Monitoring of operational parameters of interconnected Power Systems // Przegląd Elektrotechniczny. – 2012. – No 3a. – Pp. 25-27.

Lee J.-H., Kim H.-T. Natural frequency extraction using generalized pencil-of-function method and transient response reconstruction // Progress In Electromagnetics Research C. – 2008. – Vol. 4. – Pp. 65-84.

Machowski J., Bialek J.W., Bumby J.R. Power System Dynamics: Stability and Control, 2nd Edition. – John Wiley & Sons, Ltd., 2008. – 629 р.

Schweitzer E.O.; Whitehead D.E. Real-Time Power System Control Using Synchrophasors // 2008 61st Annual Conference for Protective Relay Engineers. 1-3 April 2008. – Pp. 78-88. [Online]. Available at: http://140.98.202.196/xpl/login.jsp?tp=&arnumber=4515048&url=http%3A%2F%2F140.98.202.196%2Fstamp%2Fsta mp.jsp%3Ftp%3D%26arnumber%3D4515048

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Abstract views: 125 | PDF Downloads: 12

Downloads

Download data is not yet available.

Most read articles by the same author(s)

B.I. Basok, O.F. Butkevych, S.V. Dubovskyi, TECHNICAL AND ECONOMIC ASPECTS OF DECARBONISATION PROSPECTS ASSESSING OF THE INTERCONNECTED POWER SYSTEM OF UKRAINE , Tekhnichna Elektrodynamika: No. 5 (2021): TEKHNICNA ELEKTRODYNAMIKA
O.F. Butkevych, N.T. Yunieieva, T.M. Hurieieva , ON THE ISSUE OF ENERGY STORAGES PLACEMENT IN THE IPS OF UKRAINE , Tekhnichna Elektrodynamika: No. 6 (2019): TEKHNICHNA ELEKTRODYNAMIKA
O.F. Butkevych, T.M. Hurieieva, N.T. Yunieieva, A.R. Slobodian, EXPERIMENTAL AND MODEL STUDIES OF THE DISTRIBUTED GENERATION INFLUENCE ON THE ASYNCHRONOUS MODES EMERGENCE IN THE INTERCONNECTED POWER SYSTEM OF UKRAINE , Tekhnichna Elektrodynamika: No. 6 (2024): TEKHNICHNA ELEKTRODYNAMIKA
O.F. Butkevych, N.T. Yunieieva, T.M. Hurieieva, P.I. Stetsyuk, THE PROBLEM OF ELECTRIC POWER STORAGES' PLACEMENT IN THE IPS OF UKRAINE TAKING INTO ACCOUNT ITS INFLUENCE ON THE POWER FLOWS TRANSMITTED BY CONTROLLED CUTSETS , Tekhnichna Elektrodynamika: No. 4 (2020): TEKHNICHNA ELEKTRODYNAMIKA
O.F. Butkevych, T.M. Hurieieva, V.V. Chyzhevskyi, N.T. Yunieieva, ON SOME INFLUENCES OF THE COMPOSITION OF GENERATING CAPACITIES ON DYNAMIC PROPERTIES OF POWER SYSTEMS , Tekhnichna Elektrodynamika: No. 6 (2022): TEKHNICHNA ELEKTRODYNAMIKA
O.F. Butkevych, T.M. Hurieieva, N.T. Yunieieva, STRUCTURAL CHANGES OF POWER SYSTEMS AND CORRESPONDING CHANGES OF THEIR DYNAMIC PROPERTIES , Tekhnichna Elektrodynamika: No. 6 (2023): TEKHNICHNA ELEKTRODYNAMIKA
O.F. Butkevych, O.I. Chyzhenko, O.M. Popovych, I.V. Trach, AN INFLUENCE OF THE FACTS UPON AN ELECTRICAL NETWORK'S MODE DURING DIRECT START-UP OF AN ASYNCHRONOUS MACHINE IN THE COMPLEX LOAD'S COMPOSITION , Tekhnichna Elektrodynamika: No. 6 (2018): TEKHNICHNA ELEKTRODYNAMIKA
O.V. Fesiuk, P.I. Stetsyuk, O.F. Butkevych, THE MANEUVER-NEW SYSTEM’S USE FOR PROBLEMS SOLVING OF THE OPTIMAL LOADING OF THE THERMAL POWER PLANTS' UNITS , Tekhnichna Elektrodynamika: No. 4 (2018): TEKHNICHNA ELEKTRODYNAMIKA
O.F. Butkevych, Y.V. Pylypenko, V.V. Chyzhevskyi, I.O. Elizarov, PHASOR MEASURING OF OPERATIONAL CONDITION PARAMETERS AND IDENTIFICATION OF LOW-FREQUENCY MODES OF ELECTROMECHANICAL OSCILLATIONS IN THE INTERCONNECTED POWER SYSTEM OF UKRAINE , Tekhnichna Elektrodynamika: No. 6 (2017): TEKHNICHNA ELEKTRODYNAMIKA
O.F. Butkevych, V.V. Chyzhevskyi, ON-LINE IDENTIFICATION OF LOW-FREQUENCY MODES OF ELECTROMECHANICAL OSCILLATIONS IN POWER SYSTEMS , Tekhnichna Elektrodynamika: No. 5 (2017): TEKHNICHNA ELEKTRODYNAMIKA

1 2 > >>