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The goal of this article is to determine rational constructional and technological options for the development of underground space, in particular, the arrangement of underground parking lots under the specific hydrogeological conditions of Dnipro city. In this article, the best practices in the construction of similar facilities in the world are discussed. Arrangements for individual structural elements and structures as a whole were considered. The main resources for their implementation are determined, the most important performance indicators are calculated, their comparison is carried out and proposals for the use of individual technological concepts are developed. The experience of underground space development in Dnipro city is studied and the problems of construction of underground structures under specific difficult hydrogeological conditions are identified. The proposed technological concepts make it possible to implement such design solutions under difficult hydrogeological conditions with dense development and preservation of historical buildings in the city.
Czasopismo
Rocznik
Tom
Strony
81--91
Opis fizyczny
Bibliogr. 28 poz.
Twórcy
autor
- Dnipro National University of Railway Transport, Lazaryan, 2, 49010 Dnipro, Ukraine
autor
- Dnipro National University of Railway Transport, Lazaryan, 2, 49010 Dnipro, Ukraine
autor
- Dnipro National University of Railway Transport, Lazaryan, 2, 49010 Dnipro, Ukraine
autor
- Dnipro National University of Railway Transport, Lazaryan, 2, 49010 Dnipro, Ukraine
Bibliografia
- 1. Беляев, В.И. Mastering of underground space as method of guard of historical environment Moscow. Announcer of the Moscow state building university. 2012. No. 8. P. 6-14. [In Russian: Beljaev V.L. Mastering of underground space as method of guard of historical environment Moscow. Announcer of the Moscow state building university]
- 2. Богов, С.Ж. Problems of forming of the envisaged array of soil on stream technology for the aims of reconstruction and new building. Announcer of the Perm national research polytechnic university. Building and architecture. 2017. Vol. 8. No. 4. P. 25-34. [In Russian: Boghov, S.Gh. Problems of forming of the envisaged array of soil on stream technology for the aims of reconstruction and new building. Announcer of the Perm national research polytechnic university. Building and architecture.]
- 3. Подземная урбанизация – вектор движения в будуще. Available at: http://stopress.ru/archive/html/STO_0748noyabr_2016/PODZEMNAYA_URBANIZACIYA__VEKTOR_DVIZHENIYA_V_BUDUSHEE.html. [In Russian. Underground urbanization is a vector of motion in future].
- 4. Реконструкция бесподвальных исторических зданий Санкт-Петербурга. Available at: http://stopress.ru/archive/html/STO_0647sentyabr_2016/Rekonstrukciya_bespodvalnih_istorichesk ih_zdanii_Sankt-Peterburga_s_ustroistvom_podzemnogo_obema.html. [In Russian: Reconstruction of baseless historical building of Saint Petersburg].
- 5. Штомпель, А.О. Underground space of modern cities: point of height. South federal university. Available at: https://www.sworld.com.ua/konfer27/49.pdf. [In Russian: Shtompelj, A.O. Underground space of modern cities: point of height. South federal university].
- 6. Юркевич, П.Б. Технологии устройства заглубленных подземных сооружений методом «сверху вниз». Новые технологии. Вебринар по теме «Устройство и проектирование фундаментов в сложных грунтовых условиях». 12.10.2016. Available at: http://www.yurkevich.ru/pdf_publications/WEB-report.pdf. [In Russian: Jurkevych, P.B Technology of device of the deepened underground building a method «from top to bottom». New technologies. Webinar on the topic «Device and planning of foundations in the difficult ground terms»].
- 7. Admiraal, H. & Cornaro, A. Underground Spaces Unveiled: Planning and creating the cities of the future. ICE Publishing. 2018. ISBN: 978-0-7277-6145-3.
- 8. Aguilar-Téllez, M.A. & Méndez-Marroquin, R. & Rangel-Núñez, J.L. & Comulada-Simpson M. & Maidl, U. & Auvinet-Guichard, G. Mexico City deep eastern drainage tunnel. Geotechnical Aspects of Underground Construction in Soft Ground. Viggiani (ed) Taylor & Francis Group. London, Roma, 2012. P. 3-20.
- 9. Bartel, S. & Janssen, G. Underground spatial planning – Perspectives and current research in Germany. Tunnelling and Underground Space Technology. 2016. Vol. 55. P. 112-117. ISSN: 0886-7798.
- 10. Bobylev, N. Transitions to a High Density Urban Underground Space. Procedia Engineering. 2016. Vol. 165. P. 184-192. ISSN 1877-7058. DOI http://dx.doi.org/10.1016/j.proeng.2016.11.750.
- 11. Bobylev, N. & Sterling, R. Urban Underground Space: A Growing Imperative. Perspectives and Current Research in Planning and Design for Underground Space Use. Tunnelling and Underground Space Technology. 2016. Vol. 55. P. 1-5. ISSN: 0886-7798.
- 12. Delmastro, C. & Lavagno, E. & Schranz, L. Underground urbanism: Master Plans and Sectorial Plans. Tunnelling and Underground Space Technology. 2016. Vol. 55. P. 103-111. ISSN: 0886-7798.
- 13. Hunt, D.V.L. & et al. Liveable cities and urban underground space. Tunnelling and Underground Space Technology. 2016. Vol. 55. P. 8-20. ISSN: 0886-7798.
- 14. Il'ichev, V.A. & Nikiforova, N.S. & Gotman, Yu.A. Structural safety security of objects with an underground part bytransformation of soil properties: alabyano-baltic tunnel in Moscow. Soil Mechanics and Foundation Engineering. 2017. Vol. 54. No. 2. 2017. P. 137-141.
- 15. ITACUS. 2010. ITA Committee on Underground Space White paper #2 "Planning the use of underground space".
- 16. Ivanova, N. & Ganzha, O. The architectural and ecological features of the underground development of the ravine network in a riverside city (on the example of Volgograd). 15th International scientific conference “Underground Urbanisation as a Prerequisite for Sustainable Development”. Procedia Engineering. 2016. Vol. 165. P. 1006-1015.
- 17. Kostuchenko, V. & Pogorelov, V. & Assyra M. Management of investment strategy and innovation in underground construction. 15th International scientific conference “Underground Urbanisation as a Prerequisite for Sustainable Development”. Procedia Engineering. 2016. Vol. 165. P. 965-971.
- 18. Kurakova, O. & Khomyak, N. Scenarios of Applying of Game Theory in Development Projects of Underground Construction. 15th International scientific conference “Underground Urbanisation as a Prerequisite for Sustainable Development”. Procedia Engineering. 2016. Vol. 165. P. 1221-1228.
- 19. Li, H. The Way to Plan a Sustainable “Deep City”: From Economic and Strategic Aspects. Proceedings: REAL CORP. 2012. P. 889-898.
- 20. Montazerolhodjah, M. & Pourjafar, M. & Taghvaee, A. Urban underground development; an overview of historical underground cities in Iran. International Journal of Architectural Engineering & Urban Planning. 2015. Vol. 25. P. 53-60.
- 21. Shishkin, A. & Netesa, N. & Netesa, A. Determining the rational compositions of low-strength concretes. Eastern-European Journal of Enterprise Technologies. 2019. Vol. 1/6(97). P. 47-52.
- 22. Shishkin, A. & Netesa, N. & Scherba, V. Influence of the filler which contains the iron on the strength of concrete. Eastern-European Journal of Enterprise Technologies. 2017. Vol. 5/6(89). P. 11-16.
- 23. Sterling, R. & Admiraal, H. & Bobylev, N. & Parker, H. & Godard, J.P. & Vähäaho, I. & Rogers, C.D.F. & Shi, X. & Hanamura, T. Sustainability Issues for Underground Space in Urban Areas. Proceedings of the ICE - Urban Design and Planning. 2012. Vol. 165. No. 4. P. 241-254. DOI: 10.1680/udap.10.00020.
- 24. Trushko, O.V. & Demenkov, P.A. & Tulin, P.K. Increasing the stability of extraction pits when building high- rise houses with multi-level underground car parking under conditions of highly deformed soils. International Journal of Mechanical Engineering and Technology (IJMET). 2018. Vol. 9. No. 13. P. 740-750.
- 25. u201707773 Method of arranging of wall in soil by brownish piles. Dnipro, Ukraine. (Netesa, M.I.; Maliy, A.S.) Publ. 12.03.2018.
- 26. Vähäaho, I. 0-land use: Underground resources and master plan in Helsinki. Proceeding of 13th world conference of the associated research centres for the urban underground space (ACUUS). Society for rock mechanics and engineering geology. Singapore, 5-9 November 2012. P. 29-42.
- 27. Van Tol, A.F. & Korff, M. Deep excavations for Amsterdam Metro North-South line: An update and lessons learned. Geotechnical Aspects of Underground Construction in Soft Ground. Viggiani (ed.) Taylor & Francis Group. London. 2012. P. 37-45.
- 28. Wang, W.D. & Xu, Z.H. Design and construction of deep excavations in Shanghai. Geotechnical Aspects of Underground Construction in Soft Ground. Viggiani (ed.) Taylor & Francis Group. London, Roma. 2012. P. 667-683.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3898f610-3916-41f7-aaf5-d20cffc2e98c