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ENVIRONMENTAL PROTECTION
Название Assessment of deformed and radiological state territory based on integrated monitoring
DOI 10.17580/em.2021.01.17
Автор Nurpeisova M. B., Umirbaeva A. B., Fedorov E. V., Miletenko N. A.
Информация об авторе

Satbayev University, Almaty, Kazakhstan:

Nurpeisova M. B., Professor, Doctor of Engineering Sciences, Marzhan-nurpeisova@rambler.ru
Umirbaeva A. B., Doctoral Student

 

Research Institute of Comprehensive Exploitation of Mineral Resources – IPKON, Moscow, Russia:
Fedorov E. V., Head of department, Candidate of Engineering Sciences
Miletenko N. A., Senior Researcher, Candidate of Engineering Sciences

Реферат

The article describes integrated monitoring (space, geodetic, radioecological) in the area of earlier underground explosion at Semipalatinsk Test Site (STS). The data of space monitoring of the territory and the experience of the data integration into the geographic information system (GIS) are analyzed. The primary analysis of geodetic monitoring results is performed as a case-study of Balapan and Telkem sites where ground surface subsidence is up 5–6 mm. Based on the integrated monitoring, the dynamic maps of temperature and ecological characteristics of the test site territory are obtained. The results are used for additional assessment of pollution consequences at STS and to work out recommendation on the use of the lands in the context of radiation safety.

The research was supported by the Science Committee of the Ministry of Education and Science of the Republic of Kazakhstan (Grant No АР08857097).

Ключевые слова Underground nuclear explosion, geographic information systems, space monitoring, geodetic monitoring, radioecological monitoring, analysis, temperature anomaly, ground surface deformation, radioactive contamination maps
Библиографический список

1. Materials of the International Scientific Conference «Semipalatinsk nuclear test site. Radiation heritage, and development prospects. Kurchatov : SNC RK, 2012. 150 p.
2. Space research in Kazakhstan. Edited by U. M. Sultangazin. Almaty : Space Research Institute, 2002. 488 p.
3. Bekbassarov Sh. Sh., Nurpeisova M. B. Space monitoring of SNTS. Materials of XXVII International Scientific School named after Academician S. A. Khristianovich : Deformation and Destruction of Materials with Defects and Dynamic Phenomena in Rocks and Workings. Alushta, 2017. pp. 36–41.
4. Abdrakhmanova K. K. History of the Semipalatinsk nuclear test site: historiography of the problem. Innovations in science and practice. Proceedings of V International Scientific and Practical Conference. Editor-in-Chief. A. R. Khalikov. Ufa : Dendra, 2018. pp. 134–137.
5. Busygina T. V., Rykova V. V. Analysis of publications on the Semipalatinsk test site using the Web of Science database and the CiteSpace program. Bulletin of the Nat. Nuclear Center of the Republic of Kazakhstan. 2018. No. 4. рр. 83–88.
6. Adushkin V. V., Kocharyan G. G., Novikov V. A. Study of fault slip modes. Izvestiya Physics of the Solid Earth. 2016. Vol. 52, No. 5. pp. 637–647.
7. Nurpeisova M. B., Kirgizbaeva G. G. Space monitoring of the territory of Kazakhstan on the basis of remote sensing and GIS data. Materials of the Innovative Technologies in Geodesy and Mine Surveying. Almaty : KazNTU, 2011. pp. 161–178.
8. Sultangazin U. M., Zakarin E. A. Remote sensing of temperature anomalies in SNTS area. Doklady Nathionalnoy akademii nauk RK. 2000. No. 2. pp. 51–54.
9. МcClain E. P., Pichel W. P., Walton C. C. Comparative performance of AVHRR-based multichannel sea surface temperatures. Journal of Geophysical Research. 1985. Vol. 90. pp.11587–11601.
10. Sultagazin U., Zakarin E., Spivak L., Arkhipkin O., Muratova N. et al. Monitoring of temperature Anomalies in the former Semipalatinsk Nuclear Test Site. Proceedings of the Academy of Sciences. Paris. 1998. Vol. 326. pp. 135–140.
11. USSR Nuclear testing. Vol. 4. Nuclear explosions for solving national economy problems and scientific research. Sarov : RFNC-VNIIEF, 2000. 200 p.
12. Environmental and industrial safety of subsoil development. Under the general revision of M. B. Nurpeisova. Almaty : KazNRTU, 2016. 435 p.
13. Iophis M. A., Odintsev V. N., Blokhin D. I., Sheinin V. I. Experimental investigation of spatial periodicity of induced deformations in a rock mass. Journal of Mining Science. 2007. Vol. 43, No. 2. pp. 125–131.
14. Victorov S. D., Iophis M. A., Odintsev V. N. Destruction of rock mass and risk of man-made disasters. Gornyi Zhurnal. 2005. No. 4. pp. 30–35.
15. Miletenko I. V., Miletenko N. A., Odintsev V. N. Assessment of conditions for underground explosion effect on hydrogeological environment in the rock mass. Explosion Technology. 2014. Vol. 111(68). pp. 305–313.
16. Miletenko I. V., Miletenko N. A., Odintsev V. N. Assessment of conditions for the formation of an extended crack that affects changes in the hydrogeological conditions of the rock mass during explosions. Materials of International Scientific School named after Academician S. A. Khristianovich “Deformation and destruction of materials with defects and dynamic phenomena in rocks and workings”. Simferopol, Taurida Nat. University, 2014. pp. 137–136
17. Iofis M. A., Fedorov E. V., Esina E. N., Miletenko N. A. Advancement of geomechanics toward mineral wealth preservation. Gornyi Zhurnal. 2017. No. 11. pp. 18–21. DOI: 10.17580/gzh.2017.11.03
18. Ustavich G. A., Yakovenko Yu. Yu., Yakovenko A. M., Poshivaylo Ya. G. The composition of the geodetic and cartographic works in studying the places of nuclear explosions at the Semipalatinsk test site. Geodeziya i kartographiya. 2013. No. 4. pp. 2–6.
19. Yakovenko А. М., Ustavich G. A. Deformation monitoring of ground surface at test wells at Semipalatinsk nuclear test site. Izvestiya vuzov. Geodeziya i kartographiya. 2015. No. S5. pp. 146–151.
20. Adushkin V. V., Spivak A. A. Changes in properties of rock massifs due to underground nuclear explosions. Combustion, Explosion, and Shock Waves. 2004. Vol. 40(6). pp. 624–634.
21. Saharan M., Mitri H., Jethwa J. Rock fracturing by explosive energy: Review of state-of-the-art. Fragblast. 2006. Vol. 10, No. 1. pp. 61–81.
22. Nurpeisova M. B., Umirbaeva A. B., Donenbaeva N. S. et al. Ground benchmark for geodetic measurements. Patent RK 4700. Published: 12.03.2020.
23. Madimarova G., Kapassova A. Nurpeisova M., Bekbassarov S., Umirbayeva A. et al. Ecological mapping of the territory on the basis of integrated monitoring. Bioscience Biotechnology Research Communications. 2019. Vol. 12(5). pp. 55–66.
24. Nurpeisova M. B., Umirbekova A., Bekbassarov Sh. GIS and space monitoring of STS territory. Satbayev’s Lectures : International Conference Proceedings. Almaty : KazNITI, 2018. pp. 125–130.
25. Nurpeisova M.B. Levin E., Umirbaeva A.B. Creation of ecological maps of disturbed lands.Materials of the 14th International Conference of Young Scientists on Problems of Subsoil Development in the 21st Century Through the Eyes of the Young. Moscow : IPKON RAS, 2019 pp. 103–105.
26. Seredovich V. A., Klyushnichenko V. N., Timofeeva N. V. Geoinformation systems. Novosibirsk : SSGA, 2008. 192 p.
27. Chang K. T. Introduction to geographical information systems. New York : McGraw Hill, 2008. 184 p.
28. Shein A. N., Kozhevnikov N. O., Artamonova S. Yu. Effect of changes of geological environment by the underground nuclear explosions to the induction transient characteristics (results of 3D modeling). INTEREXPO GEO-Siberia. 2019. Vol. 2(2). pp. 195–202.
29. Krivorotko O. I., Kabanikhin S. I., Turarbek A. T., Bektemesov M. A., Marinin I. V. et al. Geoinformation system of Kazakhstan. Mathematical models of the geographic information system of Kazakhstan. Marchukov’s Lectures–2017 : Proceedings of the International Scientific Conference. Novosibirsk : IVMiMG SO RAN. 2017. pp. 455–462.

Полный текст статьи Assessment of deformed and radiological state territory based on integrated monitoring
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