Vibrodinamic monitoring of pile foundation engineering on landslide hazardous site in dense urban development conditions
DOI:
https://doi.org/10.32347/2411-4049.2018.2.54-64Keywords:
safety, monitoring, pile, technical condition, sensor, vibroaccelerationAbstract
An example of the application of modern regulatory requirements for the scientific and technical support of construction and monitoring of building structures for the safe arrangement of the pile foundation on a landslide hazardous building site in conditions of dense urban development in Kyiv during the installation of a Ø820 mm bored pile according to the plan of the pile field has been considered. Experimentally registered levels of vibration acceleration on the foundation wall of the building in the vertical and horizontal directions do not exceed 0.015 m/s², which is significantly lower than the minimum permissible values of vibration acceleration for the foundations of buildings with brick bearing walls 0,15 m/s². The research also evaluated the presence of visible damage to the building in the available places and their possible development before and after piles placement. The condition of the plaster screed on a vertical crack in the wall of the house on the 8th floor, which was installed before the start of construction work, after pile foundation installation has not changed – it remained undamaged.References
Accidents on buildings and structures and their prevention. Proceedings of the Second scientific and technical conference. – К. – 1999.
Don’t construct any more, but sell. Top-10 illegal housing estates in Kyiv. Available at http://eveningkiev.com/article/33946
Property developers destroy old historical buildings in Kyiv Centre. Available at: https://censor.net.ua/photo_news/254614/v_tsentre_kieva_zastroyischiki_rushat_starinnye_doma_foto
Pechersk. New housing estate on hazardous slope: authority, greed, batts and landslides. Available at: https://censor.net.ua/resonance/166/pechersk_novostroyi_na_opasnom_ sklone_vlast_jadnost_bity_i_opolzni_viktoriya_vladina_dlyatsenzornet
Cracked buildings in Kyiv can count just on installation of “indicators”. Available at: http://eveningkiev.com/article/36152
DBN V.1.2-5:2007 «Scientific and technical support of construction facilities” – К.: Ukrbudarchinform, 2007. – 14 с.
DBN V.1.2-12-2008 «Construction in dense urban development conditions. Safety requirements» – К.: Ukrbudarchinform, 2007. – 34 p.
DBN V.1.2-14-2009 «Common principles of buildings, construction structures and foundations reliability and safety provision» – К.: Ukrbudarchinform 007. – 14 p.
Guidance as for scientific and technical monitoring of buildings and structures: DSTU-N B V.1.2-17:2016 / I. Kaliukh, O. Trofymchuk, Y. Berchun et al. // [In effect since 01 April 2017]. – К. : Minregionbud, 2017. – 42 p.
DSTU B V.2.6 – 25 – 2003. «Automated systems for technical diagnostics of building structures. General technical requirements» – К.: State Committee for Construction and Architecture of Ukraine, 2003. – 25 с.
Buildings and structures. Design of high rise housing estates and public buildings. DBN V.2.2-24:2009. Kyiv. Minenergobud, 2009.
Monitoring and safety evaluation of existing concrete structures. State of art report by Task Group 5.1. -International Federation for Structural Concrete (fib), 2003 - 300 p.
Sassa K. (2005) Landslides: Risk analysis and sustainable disaster management [Online], http://www.ebook3000.com/Kyoji-Sassa-Landslides-Risk-Analysis-and-Sustainable-Disaster-Management-147509.html.
Casagli N., Catani F., Del Ventisette C., Luzi G. (2010) Monitoring, prediction, and early warning using ground-based radar interferometry. Landslides 7(3):291–301
Pieraccini M., Casagli N., Luzi G., Tarchi D., Mecatti D., Noferini L., Atzeni C. (2003) Landslide monitoring by ground-based radar interferometry: a field test in Valdarno (Italy). Int J Remote Sens 24(6):1385–1391.
Casagli N., Tofani V., Ciampalini A., Raspini F., Lu P., Morelli S. (2018) TXT-tool 2.039-3.1: Satellite Remote Sensing Techniques for Landslides Detection and Mapping. In: Sassa K. et al. (eds) Landslide Dynamics: ISDR-ICL Landslide Interactive Teaching Tools. Springer, Cham. Р. 235–254.
Hübl J., Mikoš M. (2018) TXT-tool 2.386-1.2: Practice Guidelines on Monitoring and Warning Technology for Debris Flows. In: Sassa K. et al. (eds) Landslide Dynamics: ISDR-ICL Landslide Interactive Teaching Tools. Springer, Cham
Mihalic S, Mihalić A, Željko A, Martin K (2013) TXT-tool 2.385-1.2 A comprehensive landslide monitoring system: The Kostanjek landslide, Croatia [Online], https://scholar.google.fr/citations?view_op=view_citation&hl=ru&user=7eoSoYYAAAAJ&citation_for_view=7eoSoYYAAAAJ:D03iK_w7-QYC
Mitigation of landslide hazards in Ukraine under the guidance of ICL: 2009–2016 (IPL 153&191) / O. Trofymchuk. I. Kaliukh, K. Silchenko, V. Berchun, T. Kaliukh, Y. Berchun // 4th World Landslide Forum, Ljubljana Slovenia EU, 29 May-2 June, 2017. – [s.l.: s.n.], 2017. – P. 381 – 388.
Trofymchuk, O., Kaliukh, I., Berchun V. (2017) Landslide stabilization in building practice: methodology and case study from autonomic Republic of Crimea. 4th World Landslide Forum, Ljubljana Slovenia EU, 29 May – 2 June, 2017. – [s.l.: s.n.], 2017. Workshop on World Landslide Forum. Springer, Cham: 587-595.
Modern information and analytical decision making support systems for areas sustainable development provision / [І. Kaliukh, О. Dudarenko, Т. Kaliukh et al.] // Scientific and methodological reference guide. Kyiv: Tov. “Znannya”, 2000 – 32 p.
Kaliukh I., Kadilnikova Т. Reference book on development and design of monitoring systems for complex technical systems and construction facilities. – К.: NIISK, 2004. – 46 p.
Trofymchuk O., Kaliukh I., Silchenko K., Polevetskiy V., Berchun V., Kalyukh T. (2015) Use Accelerogram of Real Earthquakes in the Evaluation of the Stress-Strain State of Landslide Slopes in Seismically Active Regions of Ukraine. In: Lollino G. et al. (eds) Engineering Geology for Society and Territory – Volume 2. Springer, Cham. – pp. 1343–1346.
Kaliukh Т. Assessment of stress condition of landslide hazardous slopes in seismic loads conditions: thesis for Technical degree by specialty 05.15.09 – "Geotechnical and mining mechanical engineering". / Т. Kaliukh. – К, 2011. – 173 p.
Polevetskiy V. Regional features of landslide protect structures and landslide hazardous slopes in Chernivtsi oblast: thesis for Technical degree by specialty 05.23.02 – Foundamentals and foundations / V. Polevetskiy – К.: SRIBK, 2010. – 204 p.
Klimenkov O. Theoretical and methodological and practical aspects of buildings and landslide hazardous areas monitoring / O. Klymenkov, Y. Berchun // 15 International scientific and practical conference "Modern information technologies of environmental safety management, nature management, emergency actions", Kyiv, Pushcha-Voditsa, 3–6.10.16: thesis. – K .: ITHIP NASU, 2016. – P. 152–154.
Khavkin K. Landslide hazard and stress-strain state of landslide protection structures in seismically hazardous regions of Ukraine (for example, Bukovina): thesis for Technical degree by specialty 05.23.02 - "Fundamentals and foundations" / К. Khavkin – K. : SRIBK, 2015. – 188 p.
Kaliukh I. Monitoring of the Livadia Palace with changes in the physical and mechanical characteristics of the soils of the central Livadia shear equilibrium system / I. Kalyukh, O. Klymenkov, Y. Berchun // Ecological safety. – 2016. – No. 1 – 2 (21). – P. 69–82.
National Technical University of Ukraine "Kyiv Polytechnic Institute". Scientific and technical center "NPP technical equipment diagnostics". Management program. “Seismomonitoring” multichannel measuring system, version 1.0. Operator's Guide. Kiev, 2009.20. DSTU GOST 12.1.012: 2008. Vibrational security. General requirements. M. – 1990.
Rate making of structures vibration in the USSR and abroad. Issue 1. M. – 1990.
DSTU 12.1.012-2008. SSBT. Vibrational security. – M. – 1990.
Experimental and theoretical diagnostics of ferroconcrete piles base on reflection of longitudinal and transverse waves) / G. Farenyuk, I. Kaliukh, E. Farenyuk, T. Kaliukh, Y. Berchun, V. Berchun / International fib symposium “High tech concrete: Where technology and engineering meet!”, Maastricht, The Netherlands, 12–14 June, 2017. – [s.l. : s.n.], 2017. – P. 1307–1317.
Kaliukh I., Senatorov V., Marienkov N., Trofymchuk O., Silchenko K., Kalyukh T. Arrangement of deep foundation pit in restricted conditions of city build-up in landslide territory with considering of seismic loads of 8 points. In: Proceedings XVI ECSMGE, 13-17 Sept 2015, Edinburgh, Great Britain, pp. 535–540 (2015).
Technoecology: textbook for students of institutes of higher education / V.M. Udod, V.V. Trofimovich, O.S. Voloshkina, O.M. Trofimchuk; KNUBA, ITGIP NANU. – K., 2007 –195 p.
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Copyright (c) 2019 I.I. Kaliukh, O.G. Lebid, V.A. Dunin, N. Margvelashvili, Y.O. Berchun, S.M. Samoilenko
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