SAG VIDEO MEASUREMENT DEVICE FOR EVALUATION OF OHL ICING INTENSITY
https://doi.org/10.30724/1998-9903-2017-19-11-12-135-141
Abstract
The long-term trouble-free electricity supply to consumers requires the intellectualization of existing power grids. The one the stages of the creation of smart grid is to equip the overhead power lines with devices for automatically collecting information on ice formation. The article proposes the algorithm for OHLs icing monitoring by means of online video measurement of a phase conductor sag. A variant of the technical implementation of the given device is presented and a conclusion about the expediency of its application is made.
About the Authors
A. A. Shilin
Volgograd State Technical University, Volgograd
Russian Federation
Cand. Sci. (Techn.), assistant professor, Department “Electrical engineering”
Russian Federation
Cand. Sci. (Techn.), assistant professor, Department “Electrical engineering”
S. S. Dementyev
Volgograd State Technical University, Volgograd
Russian Federation
Russian Federation
postgraduate student, Department “Electrical engineering”
References
1. Shilin A.A. The "smart" towers of overhead power lines / A.A. Shilin, N.S. Artyushenko, S.S. Dementyev // Power engineering, electromechanics and energy-efficient technologies as viewed by youth: materials of III Russian Youth Scientific School-conf. (October 21-23, 2015) / Nat. Research Tomsk Polytechnic University. Tomsk, 2015. Р. 235-239.
2. Kabalci E., Kabalci Y. A Measurement and power line communication system design for renewable smart grids // Measurement science review. 2013. Vol. 13. No 5. 248-252 pp. DOI: 10.2478/msr-2013-0037.
3. Monitoring of overhead power lines operating in extreme weather conditions: monograph / V. Ya. Bashkevich, G.G. Ugarov, P.A. Kuznetsov, S.B. Stebenkov. Saratov: SGTU, 2013. 244 p.
4. Ugarov G.G., Titov D.E. Ice formation monitoring systems and prospects for their improvement // Electrical equipment: operation and repair. 2014. No 7. Р. 52-29.
5. Power electronics handbook: devices, circuits and applications / edited by Muhammad H. Rashid. 3rd ed. 2011. 1410 p.
6. Keselman L.M. Fundamentals of the overhead power lines mechanics. Moscow: Energoatomizdat, 1992. 352 p.
7. Glazunov A.A. Fundamentals of the mechanical part of overhead power lines. In 2 parts. Part 1: The work and the calculation of wires and cables. Moscow-Leningrad: Gosenergoizdat, 1956. 192 p.
8. Diagnostics, reconstruction and maintenance of overhead power lines in the sleet areas / I.I. Levchenko, A.S. Zasypkin, A.A. Aliluev, E.I. Satsuk. Moscow: MEI, 2007. 494 p.
9. Nikitina I.E., Abdrakhmanov N.Kh., Nikitin S.A. Methods of ice removing from the wires of electric power lines // Oil and Gas Engineering. 2015. No 3. 794-823 pp. Available at:
10. http://ogbus.ru/issues/3_2015/ogbus_3_2015_p794-823_NikitinaIE_en.pdf (accessed 04/04/2017).
11. Gonzalez R., Woods R. Digital image processing. Moscow: Technosphere, 2005. 1072 p.
Review
For citations:
Shilin A.A., Dementyev S.S. SAG VIDEO MEASUREMENT DEVICE FOR EVALUATION OF OHL ICING INTENSITY. Power engineering: research, equipment, technology. 2017;19(11-12):135-141. (In Russ.) https://doi.org/10.30724/1998-9903-2017-19-11-12-135-141
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