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System ochrony hydrodynamicznej pompowni w przypadku awaryjnego wyłączenia zasilania
Języki publikacji
Abstrakty
The structure of the system of hydrodynamic protection of the pumping plant in the event of an emergency shutdown of the power supply is proposed. The mathematical apparatus for determining the size of capacitive storage devices and the power of an active energy regulator is presented. A comparative analysis of time diagrams of the operation of the pumping plant during a sudden interruption of the power supply without capacitive storage devices and in their presence as part of the hydrodynamic protection system is performed.
Zaproponowano konstrukcję systemu poprawy sterowności przepompowni w przypadku awaryjnego zaniku zasilania. Podano aparat matematyczny do określania wielkości zasobników pojemnościowych oraz mocy aktywnego regulatora energii. Dokonano analizy porównawczej przebiegów czasowych pracy przepompowni podczas nagłej przerwy w zasilaniu bez zasobników pojemnościowych i z ich obecnością w ramach zabezpieczenia hydrodynamicznego.
Wydawca
Czasopismo
Rocznik
Tom
Strony
105--108
Opis fizyczny
Bibliogr. 16 poz., rys.
Twórcy
autor
- Kremenchuk Mykhailo Ostrohradskyi National University Tetyana Korenkova, Pershotravneva str. 20, Kremenchuk, Ukraine, 39600
autor
- Kremenchuk Mykhailo Ostrohradskyi National University Tetyana Korenkova, Pershotravneva str. 20, Kremenchuk, Ukraine, 39600
autor
- Kremenchuk Mykhailo Ostrohradskyi National University Tetyana Korenkova, Pershotravneva str. 20, Kremenchuk, Ukraine, 39600
autor
- Al-Balqa’ Applied University, Jordan
Bibliografia
- [1] Totten G. E., De Negri V. J. Handbook of hydraulic fluid technology, second edition, Taylor & Francis Grou, 2012, 212 p. ISBN-13: 978-1-4200-8527-3 (eBook - PDF)
- [2] Pejović S., Boldy A. P., Obradović D., Guidelines to hydraulic transient analysis, Technical Press, 1987, 145 p.
- [3] Ellis J., Pressure transients in water engineering: A guide to analysis and interpretation of behavior, London, United Kingdom, Thomas Telford Publishing Ltd 2008, 540 p.
- [4] Manlin Zhu, Xiaohong Zhang, Yanhe Zhang, Tao Wang, Study on Water Hammer Prevention in Pumping Water Supply Systems by Multi-valves, Proceedings of ICHIT Cheju Island, 2006. PP. 342–346.
- [5] Roy J. K., Roy P. K., Basak P. Water hammer protection in water supply system: A new approach with practical implementation, Proceedings of ICCIA Kolkata, 2011. PP. 1–6.
- [6] Ferreira T. E., Fong J. A C. and De Almeida A. T., Ecoanalysis of variable-speed drives for flow regulation in pumping systems, Industrial Electronics, IEEE Transactions, 2011, vol. 58, no. 6, pp. 2117-2125.
- [7] Variable Speed Driven Pumps. Best Practice Guide, British Pump Manufacturers’ Association, Gambica’s Variable Speed Drive group and the Electric Motor industry, Second Edition - 27 June 2016, 50 p.
- [8] Zagirnyak M., Kravets O., Korenkova T., "The optimal control of dynamic loads in a pump complex with adjustable pipeline valves", Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 2016, vol. 3, pp. 78-86.
- [9] Zagirnyak M., Korenkova T., Alieksieieva I. Energy and resource saving control system for pumping station. Przeglad Elektrotechniczny, 2013, 89(2 B), pp. 76–79.
- [10] Zagirnyak M., Korenkova T., Serdiuk O., Kravets O. and Kovalchuk V. The Control of the Pumping Complex Electric Drive in Non-Steady Operation States. Monograph – New York, Nova Publisher, 2019. – 278 p. ISBN: 978-1-53615-017-9
- [11] Zagirnyak M., Kalinov A., Melnykov V. 'Sensorless vector control systems with the correction of stator windings asymmetry in induction motor', Przegląd elektrotechniczny, 2013, 89, (12), pp. 340–343.
- [12] Zagirnyak M., Kalinov A. and Melnykov V. "Decrease of the thermal overloads of a variable-frequency electric drive at damages in the electric circuit of an induction motor stator", Przeglad Elektrotechniczny, 2019, vol. 95, no. 5. pp. 43-46. doi:10.15199/48.2019.05.11
- [13] M. Zagirnyak, O. Chornyi, I. Zachepa, V. Chenchevoi, “The autonomous sources of energy supply for the liquidation of technogenic accidents”, Przeglad Elektrotechniczny, vol. 95, no. 5, pp. 47-50, 2019, DOI: 10.15199/48.2019.05.12
- [14] Korenkova T., Kovalchuk V. and Qawaqzeh M. Z., "The Assessment of the Electrohydraulic Complex Power Controllability in the Event of an Emergency Shutdown of the Power Supply," 2020 IEEE Problems of Automated Electrodrive. Theory and Practice (PAEP), 2020, pp. 1-6, doi: 10.1109/PAEP49887.2020.9240854
- [15] Kovalchuk V., Korenkova T. and Almashakbeh A. S. "Electrohydraulic Complex Parameters Determination Based on the Energy Balance Equations," 2020 IEEE Problems of Automated Electrodrive. Theory and Practice (PAEP), 2020, pp. 1-6, doi: 10.1109/PAEP49887.2020.9240819
- [16] M. Zagirnyak, S. Serhiienko, O. Chornyi, "Innovative technologies in laboratory workshop for students of technical specialties", 2017 IEEE 1st Ukraine Conference on Electrical and Computer Engineering, UKRCON 2017 - Proceedings, pp. 1216, 2017, DOI: 10.1109/UKRCON.2017.8100446
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-774553c1-f972-42b0-8680-5b9eb711b591