Determination the conductor sag according to the period of own harmonic oscillations

Danil Yaroslavsky; Van Vu Nguyen; Marat Sadykov; Mikhail Goryachev; Dmitry Ivanov; Nikolay Andreev

doi:10.1051/e3sconf/202022001036

All issues

Volume 220 (2020)

E3S Web Conf., 220 (2020) 01036

References

Open Access

Issue		E3S Web Conf. Volume 220, 2020 Sustainable Energy Systems: Innovative Perspectives (SES-2020)


Article Number		01036
Number of page(s)		5
DOI		https://doi.org/10.1051/e3sconf/202022001036
Published online		16 December 2020

Action PLAN (“road map”) “Energinet” of the National technological initiative / / INNOVATIONS in the fuel and energy sector project of the Ministry of energy of Russia URL: https://in.minenergo.gov.ru/energynet/docs/DK_energynet.pdf (accessed: 28.02.2020) [Google Scholar]
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[1] Action PLAN (“road map”) “Energinet” of the National technological initiative / / INNOVATIONS in the fuel and energy sector project of the Ministry of energy of Russia URL: https://in.minenergo.gov.ru/energynet/docs/DK_energynet.pdf (accessed: 28.02.2020) [Google Scholar]

[2] Bokov G. Technical re-equipment of Russian electric networks. How much can it cost? // Electrical Engineering News. 2, 14, (2002) [Google Scholar]

[3] E.I. Satsuk. Software and technical means of monitoring overhead power transmission lines and power system management in extreme weather conditions [Text]: dis. ... doctor of technical Sciences / / (E.I. Satsuk. Novocherkassk, 2011. 314 p.) [Google Scholar]

[4] S.V. Mortician, D.S. Kim. Information-measuring system of control of ice deposits on the conductors of power lines //Energy and resource saving: industry and transport. (2017). 2. – P. 7-11 [Google Scholar]

[5] R.G. Minullin. Modern methods of detecting ice on overhead power lines part 1. Methods of forecasting and weighing conductors //News of higher educational institutions. Energy problems. (2013).– 7-8. P. 68-78 [Google Scholar]

[6] I. Kostikov. Monitoring System “SAT-1” effective protection of overhead lines from ice / / electric Power. Transmission and distribution. (2011). –1-4. – P. 32-35 [Google Scholar]

[7] V.G. Makarov, A.I. Fedotov, R.Sh. Basyrov, G.V. Vagapov. Modeling of an overhead power transmission line in the Matlab/Simulink package //Bulletin of the Kazan technological University, (2017), Vol. 20, No. 13, P. 93-96 [Google Scholar]

[8] D.A. Yaroslavsky, M.F. Sadykov, D.A. Ivanov, M.P. Goryachev, A.B. Konov. Methodology of ice coating monitoring on overhead transmission lines considering misalignment using conductorless communication channel sensors // ARPN Journal of Engineering and Applied Sciences. (2017). – V. 12. – № 22. – P. 6479-6482 [Google Scholar]

[9] A. Fedotov, S. Kurth, S. Voigt, G. Vagapov. A concept for an ice detection system on overhead power lines, theory and practical results // Proceedings of the 9th International Scientific Symposium on Electrical Power Engineering, Elektroenergetika 2017. P. 297–300 [Google Scholar]

[10] T. Otto. Integrated Microsystems for Smart Applications //Sensors and Materials. (2018). – V. 30. – №. 4. – P. 767-778 [Google Scholar]

[11] M.F. Sadykov., D.A. Yaroslavsky., D.A. Ivanov, M.P. Goryachev, O.G. Savelyev, Yu.S. Chugunov, Yu.V. Toropchin. Implementation of an automated monitoring system for ice formation in the distribution networks of PJSC TATNEFT. Oil industry. (2020). No. 7. P. 53-55 [Google Scholar]

[12] A.S. Zasypkin, A.N. Shchurov, A.D. Teterin. Application of icy load sensors and sensors of longitudinal tension of Overhead line conductors for assessing the danger of icy conditions // University news. North Caucasus region. Series: Technical Sciences. (2018). №2 (198) [Google Scholar]

[13] Yaroslavsky, D. A., D. A. Ivanov, and V. Nguyen. Wire Torsion Measurement for the Tasks of Monitoring of the Mechanical State of Overhead Power Transmission Line. Proceedings 2020 international conference on industrial engineering, applications and manufacturing, ICIEAM 2020; (2020), 9111999. [Google Scholar]

[14] D.A. Yaroslavsky, V.V. Nguyen, M.F. Sadykov, M.P. Goryachev, D.A. Ivanov, T.G. Galieva, Y.Y. Vassunova, A.N. Tyurin. Studying the Model of Free Harmonic Oscillations of Overhead Power Lines. International Journal of Emerging Trends in Engineering Research, Volume 8, No. 6, (June 2020), pp. 2663–2667. doi: https://doi.org/10.30534/ijeter/2020/72862020. [CrossRef] [Google Scholar]

[15] B.M. Yavorskiy, A.A. Detlaf. Physics Handbook. Moscow: M. Nauka, (1964). P. 103 [Google Scholar]

[16] D.R. Merkin. Introduction to the mechanics of flexible thread. Moscow: Nauka. Main edition of physical and mathematical literature, (1980). – 240 p. [Google Scholar]