AbstractAbout AuthorsReferences
The analysis of the changes of tensile forces in conductors and earth wires is performed during their breakage and impact on the towers of overhead power line with a voltage of 330 kV. Based on the results, a mathematical model of a unified cable-stayed rod system consisting of steel towers, conductors and earth wires and insulating elements has been compiled. The system of equations of the model is solved iteratively using the MS Excel spreadsheet processor for various breakage cases. The dependences of tensile forces in conductors and earth wires during their breakage are presented, as well as the forces which correspond to an acting regime on towers in a linear circuit, taking into account the supporting effect of neighboring towers.
N.A. SENKIN, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
A.S. FILIMONOV, Master of Science, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
A.S. FILIMONOV, Master of Science, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
Saint-Petersburg State University of Architecture and Civil Engineering (4, 2nd Krasnoarmeyskaya Street, Saint Petersburg, 190005, Russian Federation)
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7. Mishchenko V.V. Installation of flexible connection wires and overhead power lines at hydroelectric power plants: design problems and ways to solve them. News of the All-Russian Scientific Research Institute of Hydraulic Engineering named after B.E. Vedeneev. 2022. Vol. 306, pp. 61–70. (In Russian).
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9. Kirsanov M. An inductive method of calculation of the deflection of the truss regular type. Architecture and Engineering. 2016. Vol. 1. No. 3, pp. 14–17. (In Russian).
10. Volkov V. Control over distribution of construction loads on foundations of tower buildings. Architecture and Engineering. 2016. Vol. 1. No. 4, pp. 42–45. (In Russian).
11. Senkin N.A., Belyakova T.E. About accounting for the building foundation settlement and the vertical displacement of supports at calculation of tower-type structures. Vestnik grazhdanskikh ingenerov. 2022. No. 2 (91), pp. 36–44. (In Russian). DOI: 10.23968/1999-5571-2022-19-2-36-44
12. Senkin N.A. Consideration of progressive collapse in the design of overhead power transmission line supports. Vestnik grazhdanskikh ingenerov. 2022. No. 4, pp. 37–46. (In Russian) DOI: 10.23968/1999-5571-2022-19-4-37-46
13. Senkin N.A. Progressive collapse and restoration of overhead power lines structures. Izvestiya of higher educational institutions. Construction. 2023. Vol. 10, pp. 5–20. (In Russian). DOI: 10.32683/0536-1052-2023-778-10-5-20
14. Glazunov A.A. Rabota i raschet provodov i trossov [Work and calculation of wires and cables]. Moscow: Gosenergoizdat. 1956. 192 p.
15. Liu Chun-cheng, Chu Zheng-yu, Zhang Wei, Sun Xian-he. Study on iced and wire breaking-induced vibrations of long distance electricity tower-line system. International Conference on Future Electrical Power and Energy Systems. Energy Procedia. 2012. No. 17, pp. 834–842. (In Russian).
2. Tanasoglo A.V. Determination of reduced gravity in case of breaks in live wires and lightning protection cables of overhead power lines with a voltage of 35–110 kV. Metallicheskie konstruktsii. 2022. Vol. 28. No. 4, pp. 195–205. (In Russian).
3. Tanasoglo A.V., Garanzha I.M., Fedorova S.R. Monitoring of single-post free-standing supports of overhead power lines under the action of wind loads. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2023. No. 12, pp. 73–78. (In Russian). DOI: https://doi.org/10.31659/0044-4472-2023-12-73-78
4. Kuryanov V., Gurevich L., Timashova L., Fokin V. Plastically compressed steel – aluminum wires for new overhead. SIGRE. B2 – OVERHEAD LINES. Challenges & New Solutions in Design and Construction of New OHL. 2022, pp. 1–10.
5. Efimov E.N., Timashova L.V., Yasinskaya N.V. The causes and nature of damage to components of overhead power transmission lines with a voltage of 110–750 kV in 1997–2007. Energiya Edinoi seti. 2012. No. 5, pp. 32–41. (In Russian).
6. Vasy`lev V.N. Issledovanie prostranstvennoj raboty krestovoj reshetki pri naturnykh ispytaniyakh opor VL na Poligone DonNASA. Metallicheskie konstrukcii. 2018. Vol. 19. No. 1, pp. 15–25. (In Russian).
7. Mishchenko V.V. Installation of flexible connection wires and overhead power lines at hydroelectric power plants: design problems and ways to solve them. News of the All-Russian Scientific Research Institute of Hydraulic Engineering named after B.E. Vedeneev. 2022. Vol. 306, pp. 61–70. (In Russian).
8. Galiaskarov I.M., Misrikhanov M.Sh., Ryabchenko V.N. Once again about the cyclicity of accidents in the main networks of power systems. Elektrichestvo. 2019. No. 11, pp. 4–11. (In Russian). DOI: 10/24150/0013-5380-2019-11-4-11
9. Kirsanov M. An inductive method of calculation of the deflection of the truss regular type. Architecture and Engineering. 2016. Vol. 1. No. 3, pp. 14–17. (In Russian).
10. Volkov V. Control over distribution of construction loads on foundations of tower buildings. Architecture and Engineering. 2016. Vol. 1. No. 4, pp. 42–45. (In Russian).
11. Senkin N.A., Belyakova T.E. About accounting for the building foundation settlement and the vertical displacement of supports at calculation of tower-type structures. Vestnik grazhdanskikh ingenerov. 2022. No. 2 (91), pp. 36–44. (In Russian). DOI: 10.23968/1999-5571-2022-19-2-36-44
12. Senkin N.A. Consideration of progressive collapse in the design of overhead power transmission line supports. Vestnik grazhdanskikh ingenerov. 2022. No. 4, pp. 37–46. (In Russian) DOI: 10.23968/1999-5571-2022-19-4-37-46
13. Senkin N.A. Progressive collapse and restoration of overhead power lines structures. Izvestiya of higher educational institutions. Construction. 2023. Vol. 10, pp. 5–20. (In Russian). DOI: 10.32683/0536-1052-2023-778-10-5-20
14. Glazunov A.A. Rabota i raschet provodov i trossov [Work and calculation of wires and cables]. Moscow: Gosenergoizdat. 1956. 192 p.
15. Liu Chun-cheng, Chu Zheng-yu, Zhang Wei, Sun Xian-he. Study on iced and wire breaking-induced vibrations of long distance electricity tower-line system. International Conference on Future Electrical Power and Energy Systems. Energy Procedia. 2012. No. 17, pp. 834–842. (In Russian).
For citation: Senkin N.A., Filimonov A.S. Interaction of structural elements in the overhead transmission power line. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2023. No. 1–2, pp. 101–108. (In Russian). DOI: https://doi.org/10.31659/0044-4472-2024-1-2-101-108