SMART GRID TECHNOLOGY IN MONITORING OF POWER SYSTEM OBJECTS
Keywords:
diagnostic system, monitoring, heating energy, intelligent networks, Smart Grid.
Abstract
Considered the main sources and types of signals that occurred during the operation of the thermotechnical equipment. Developed the generalized structure of intellectual multilevel distributed system of monitoring and diagnosis of thermotechnical equipment, which is consistent with the principles of the concept of «intelligent networks» Smart Grid.
References
1. Informacijne zabezpechennja monitoryngu ob’jektiv teploenergetyky: Monografija, [Infor-mation management of power system objects monitoring: Monograph], V.P. Babak, S.V. Babak, V.S. Beregun ta in.; za red. chl.-kor. NAN Ukrai'ny V.P. Babaka, K.: Poligraf-Servis, 2015, 512 p. (Ukr.)
2. Stognij B.S, Sopel' M.F. Osnovy monitoryngu v elektroenergetyci. Pro ponjattja monitoryngu, [Fundamentals of monitoring in electric power industry. On the concept of monitoring] Tehnichna elektrodynamika, [Technical electrodynamics], 2013, No1, P. 62–69. (Ukr.)
3. Intelektual'ni elektrychni merezhi: elementy ta rezhymy [Intelligent electricity networks: ele-ments and modes], za zag. red. akad. NAN Ukrai'ny O.V. Kyrylenka, K.: In-t elektrodynamiky NAN Ukrai'ny, 2016, 400 р. (Ukr.)
4. Ershov S.V., Dmitriev S.V. Analiz metodik i podhodov k probleme diagnostirovanija tehnicheskogo sostojanija setej jelektrosnabzhenija [Analysis of the methods and approaches to the problem of diagnosing the technical condition of power supply networks], Izvestija TulGU. Tehnicheskie nauki [Proceedings of TSU. Technical science], 2014, No8, P. 88–97. (Rus.)
5. Povgorodnij V.O. Sistema diagnostiki jenergeticheskogo oborudovanija [Power equipment diagnostic system], Vestnik dvigatelestroenija [Vestnik of engine], 2014, No2, P. 238–242. (Rus.)
6. Markov V.A., Shatrov V.A. Napravlenija sovershenstvovanija sistem avtomaticheskogo up-ravlenija i regulirovanija teplojenergeticheskih ustanovok [Directions of perfection of auto-matic control and regulation of thermal power plants], Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie» [Vestnik MSTU N.E. Bauman. Ser. "Engineering"], 2015, No5, P. 128–148. (Rus.)
7. Mihajlova N.L., Chernicov N.S., Logval' D.A., Trofimov A.A., Shestakov A.A. Infrakrasnaja diagnostika teplojenergeticheskogo oborudovanija [Infrared diagnostic of thermal power equipment], Aktual'nye problemy gumanitarnyh i estestvennyh nauk [Actual problems of the humanities and natural sciences], 2016, No1–2, Р. 103–105.
8. Ahmed Md.A., Huda A.S.N., Isa N.A.M. Recursive construction of outputcontext fuzzy systems for the condition monitoring of electrical hotspots based on infrared thermography, Engi-neering Applications of Artificial Intelligence, 2015, Vol.39, P. 120–131.
9. Khramshin V.R., Evdokimov S.A., Nikolaev A.A., Nikolaev A.A., Karandaev A.S. Monitor-ing technical state of the power transformers is a necessary condition of the Smart-Grid technology introduction within the industrial electric networks, Young Researchers in Electrical and Electronic Engineering Conference (EIConRusNW), 2015 IEEE NW Russia, P. 214–220.
10. Mariam L., Basu M., Conlon M.F. A Review of Existing Microgrid Architectures, Journal of Engineering, Vol. 2013, 2013, P. 8.
11. Babych S.V. Upravlenye systemoj teplosnabzhenyja goroda za schet celevoj optymyzacyy struktury tehnchyeskyh sredstv [Management of heating city system by optimizing the structure of the target hardware], Avtomatyzacija tehnologichnyh i biznes-procesiv [Automation technology and business processes], 2015, Vol. 7, No1. P. 41–45. (Rus.)
2. Stognij B.S, Sopel' M.F. Osnovy monitoryngu v elektroenergetyci. Pro ponjattja monitoryngu, [Fundamentals of monitoring in electric power industry. On the concept of monitoring] Tehnichna elektrodynamika, [Technical electrodynamics], 2013, No1, P. 62–69. (Ukr.)
3. Intelektual'ni elektrychni merezhi: elementy ta rezhymy [Intelligent electricity networks: ele-ments and modes], za zag. red. akad. NAN Ukrai'ny O.V. Kyrylenka, K.: In-t elektrodynamiky NAN Ukrai'ny, 2016, 400 р. (Ukr.)
4. Ershov S.V., Dmitriev S.V. Analiz metodik i podhodov k probleme diagnostirovanija tehnicheskogo sostojanija setej jelektrosnabzhenija [Analysis of the methods and approaches to the problem of diagnosing the technical condition of power supply networks], Izvestija TulGU. Tehnicheskie nauki [Proceedings of TSU. Technical science], 2014, No8, P. 88–97. (Rus.)
5. Povgorodnij V.O. Sistema diagnostiki jenergeticheskogo oborudovanija [Power equipment diagnostic system], Vestnik dvigatelestroenija [Vestnik of engine], 2014, No2, P. 238–242. (Rus.)
6. Markov V.A., Shatrov V.A. Napravlenija sovershenstvovanija sistem avtomaticheskogo up-ravlenija i regulirovanija teplojenergeticheskih ustanovok [Directions of perfection of auto-matic control and regulation of thermal power plants], Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie» [Vestnik MSTU N.E. Bauman. Ser. "Engineering"], 2015, No5, P. 128–148. (Rus.)
7. Mihajlova N.L., Chernicov N.S., Logval' D.A., Trofimov A.A., Shestakov A.A. Infrakrasnaja diagnostika teplojenergeticheskogo oborudovanija [Infrared diagnostic of thermal power equipment], Aktual'nye problemy gumanitarnyh i estestvennyh nauk [Actual problems of the humanities and natural sciences], 2016, No1–2, Р. 103–105.
8. Ahmed Md.A., Huda A.S.N., Isa N.A.M. Recursive construction of outputcontext fuzzy systems for the condition monitoring of electrical hotspots based on infrared thermography, Engi-neering Applications of Artificial Intelligence, 2015, Vol.39, P. 120–131.
9. Khramshin V.R., Evdokimov S.A., Nikolaev A.A., Nikolaev A.A., Karandaev A.S. Monitor-ing technical state of the power transformers is a necessary condition of the Smart-Grid technology introduction within the industrial electric networks, Young Researchers in Electrical and Electronic Engineering Conference (EIConRusNW), 2015 IEEE NW Russia, P. 214–220.
10. Mariam L., Basu M., Conlon M.F. A Review of Existing Microgrid Architectures, Journal of Engineering, Vol. 2013, 2013, P. 8.
11. Babych S.V. Upravlenye systemoj teplosnabzhenyja goroda za schet celevoj optymyzacyy struktury tehnchyeskyh sredstv [Management of heating city system by optimizing the structure of the target hardware], Avtomatyzacija tehnologichnyh i biznes-procesiv [Automation technology and business processes], 2015, Vol. 7, No1. P. 41–45. (Rus.)
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Published
2017-10-30
How to Cite
Babak, V., Zaporozhets, A., & Sverdlova, A. (2017). SMART GRID TECHNOLOGY IN MONITORING OF POWER SYSTEM OBJECTS. Thermophysics and Thermal Power Engineering, 38(6), 71-81. https://doi.org/https://doi.org/10.31472/ihe.6.2016.10
Section
Measurement, Control and Automation of Thermal Processes
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