Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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23 | 11 | 2024
2023, 08 August

DOI: 10.14489/td.2023.08.pp.032-039

Bykov A. A., Surzhik D. I., Vasilyev G. S., Kuzichkin O. R.
GEOELECTRIC PHASOMETRIC CONTROL OF THE RAILWAY TRACKBED
(pp. 32-39)

Abstract. During the operation of the railway track, various defects and deformations may occur and accumulate in the earth bed and its soil base, which leads to a violation of their bearing capacity. The task of developing new technological methods for monitoring the condition of the ground foundation – roadbed – railway track system is becoming urgent. The article proposes a geoelectric phase-measuring method for monitoring the phase of recorded signals with changes in the load on the ground at the base of the railway track. The control of phase characteristics allows for greater sensitivity, accuracy and noise immunity compared to the control of the amplitude of geoelectric signals. The developed laboratory setup allows simulating various natural processes (changes in soil moisture, suffusion, karst dips, landslides, landslides, and others) and assessing their impact on the railway transport complex. The installation contains a model of the controlled object (a container with soil), generators of probing signals, a subsystem for recording signals in the environment, a subsystem for data processing. The proposed approach makes it possible to detect early geodynamic indicators of deformations of the railway trackbed.

Keywords: railway track, roadbed, geodynamic processes, phasometric method, monitoring of the geological environment.

A. A. Bykov, D. I. Surzhik (Murom Institute (branch) of the Federal State Budgetary Educational Institution of Higher Education “Vladimir State University named after Alexander Grigoryevich and Nikolai Grigoryevich Stoletov” (MI VlSU), Murom, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.
G. S. Vasilyev, O. R. Kuzichkin (Belgorod State University (Belgorod National Research University, “BelSU”), Belgorod, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.

1. Baymahan A. R., Zhumanova Z. E., Baybatyrova A. N., Baymahan R. B. (2015). Calculation of the deformation stability of the system "inclined layered soil base - foundation - building". Global'niy nauchniy potentsial, 55(10), pp. 33 – 35. [in Russian language]
2. Yan H., Gao C., Elzarka H. et al. (2019). Risk assessment for construction of urban rail transit projects. Safety Science, Vol. 118, pp. 583–594.
3. Zheng Y., He S., Yu Y. et al. (2021). Characteristics, challenges and countermeasures of giant karst cave: A case study of Yujingshan tunnel in high-speed railway. Tunnelling and Underground Space Technology, Vol. 114.
4. Romero‐Ruiz A., Linde N., Keller T., Or D. (2018). A review of geophysical methods for soil structure characterization. Reviews of Geophysics, Vol. 56, pp. 672–697. DOI: https://doi.org/10.1029/2018RG000611.
5. Draft Environmental Impact Report. (2012). Preston Property Residential Project State Clearinghouse No. 2012022075. Milpitas. Available at: http://www.ci.milpitas.ca.gov/_pdfs/plan_eir_PrestonPropertyAppendices, Part1.pdf (Accessed: 15.11.2012).
6. Strokova L. A. (2008). Determination of parameters for numerical modeling of soil behavior. Izvestiya Tomskogo politekhnicheskogo universiteta, Vol. 313 (1), pp. 69 – 74. [in Russian language]
7. Baknin M. D., Bykov A. A., Surzhik D. I., Kuzichkin O. R. (2020). Geotechnical monitoring of the foundations of structures based on integrated seismoelectric measurements in conditions of karst hazard. Conference: 20th International Multidisciplinary Scientific GeoConference Proceedings SGEM 2020, pp. 559 – 566. Sofia.
8. Monahov V. V., Ovchinnikov V. I., Urusova A. V. et al. (2005). Experience in the application of geophysical surveys on deformable sections of railway subgrade. Razvedka i ohrana nedr, (12), pp. 46 – 49. [in Russian language]
9. Pronin A. P. (2016). The impact of railway transport on the environment. Avtomatika na transporte, (4). [in Russian language]
10. Revil A., Jardani A., Sava P., Haas A. (2015). The Seismoelectric Method: Theory and Applications. John Wiley & Sons. DOI: 10.1002/ 9781118660270.
11. Youssef A. M., El-Kaliouby H. M., Zabramawi Ya. A. (2012). Integration of remote sensing and electrical resistivity methods in sinkholeinvestigation in Saudi Arabia. Journal of Applied Geophysics, Vol. 87, pp. 28 – 39.
12. Bykov A., Grecheneva A., Kuzichkin O. et al. (2021). Mathematical description and laboratory study of electrophysical methods of localization of geodeformational changes during the control of the railway roadbed. Mathematics, Vol. 9, 24.
13. Kuzichkin O., Grecheneva A., Bykov A. et al. (2018). Methods and algorithms of joint processing of geoelectric and seismoacoustic signals in real time. International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, pp. 877 – 884. Sofia.
14. Vasilyev G. S., Kuzichkin O. R., Grecheneva A. V. et al. (2018). Analysis of the combined transfer functions for geotechnical control. International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, pp. 43 – 50. Sofia.
15. Dorofeev N. V., Grecheneva A. V., Kuzichkin O. R. et al. (2019). The method of the phase control of the electrical installation during geodynamic monitoring. 2nd International Conference on Functional Materials and Chemical Engineering (ICFMCE 2018). MATEC Web of Conferences, Vol. 272.
16. Kuzichkin O. R., Bykov A. A., Surzhik D. I. et al. (2019). The study of the seismoelectric method for the localization of geodeformational changes in the control of the subgrade of the railway. IIOAB Journal, Vol. 10 (5), pp. 34 – 39. (Web of Science)
17. Kuzichkin O. R., Vasilyev G. S., Grecheneva A. V. et al. (2020). Application of phasemetric compensation method for geoelectric control of near-surface geodynamic processes. Bulletin of Electrical Engineering and Informatics, Vol. 9 (3), pp. 898 – 905.

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