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Modern trends of organization of the underground urban space

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article is devoted to important issues of perspective modern organizational tendencies of underground urban space. Innovative world experience of organization of underground space and its use by creating underground buildings and structures for optimal working, living, recreation and movement of the urban population, increasing the area of open green spaces on the surface, creating a comfortable and aesthetically attractive urban environment are reviewed. The ecological, economic, political and cultural features that influence the formation and development of underground space in terms of sustainable development are analyzed. The architectural and spatial structure and functional features of underground permanent cities are considered. The basic modern tendencies of the organization of underground urban space are defined in the town-planning architectural-spatial, functional aspects and aspects of sustainable development.
Rocznik
Strony
45--51
Opis fizyczny
Bibliogr. 30 poz.
Twórcy
  • Associate Prof., PhD Arch.; Faculty of Architecture, Department of Design Architectural Environment, Kyiv National University of Construction and Architecture, Povitroflotsky Avenue, 31, Kyiv, 03680, Ukraine
  • Associate Prof., PhD Arch.; Faculty of Architecture, Department of Design Architectural Environment,Kyiv National University of Construction and Architecture, Povitroflotsky Avenue, 31, Kyiv, 03680, Ukraine
Bibliografia
  • [1] Skupov B. A. (2015). Strategy of innovative development of underground urban space. Retrieved from https://ardexpert.ru/article/4137
  • [2] Belyaev V. L. & Belyaev V. B. (2014). Development of the underground space of cities in terms of their sustainable development. MSSU Bulletin, 2, 7–12.
  • [3] Labs, K. B. (1975). The Architectural Use of Underground Space: Issues & Applications (Master's thesis, Washington University). USA, Washington.
  • [4] Admiraal, H., & Cornaro, A. (2018). Underground Spaces Unveiled: Planning and creating the cities of the future. London: ICE Publishing.
  • [5] Reynolds, E. (2019). Underground urbanism. New York: Routledge.
  • [6] Von der Tann, L., Sterling, R., Zhou, Y., & Metje, N. (2020). Systems approaches to urban underground space planning and management. Underground Space, 5(2), 144–166.
  • [7] Stones, P. & Tan Yoong Heng (2016). Underground space development key planning factors. Procedia Engineering, 165, 343–354.
  • [8] Gilbert P. H. (2013). Underground Engineering for Sustainable Urban Development. Washington: The National Academies Press.
  • [9] Praslova, V., Riabets, Y., Shchurova, V., Zinovieva O. & Harbar M. (2020). Functional Organization of extraterrestrial underground base on Mars. International Journal of Innovative Technology and Exploring Engineering, 9(5), 303–312.
  • [10] Brown, H. (2014). Next Generation Infrastructure: Principles for Post-industrial Public Works. Washington: Island Press.
  • [11] Bulakh, I. (2021). Perspective architectural techniques for the formation and development of public spaces in hospitals. Architecture Civil Engineering Environment, 14(1), 15–24.
  • [12] European Parliament resolution of 9 July 2008. Retrieved from https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:52008IP0356
  • [13] Shebek, N., Timokhin, V., Tretiak, Y., Kolmakov, I. & Olkhovets, O. (2020). Sustainable development and harmonization of the architectural environment of cities. E3S Web of Conferences, 166. Retrieved from https://doi.org/10.1051/e3sconf/202016609001
  • [14] Kabanov, E. (2010). Eco-City inside a giant Siberian crater, AB Elise, https://en.metkere.com/2010/11/eco-city.html
  • [15] Bulakh, I., Kashchenko, T., Harbar, M., Praslova, V., Riabets, Y. & Divak, V. (2022). The integrity of the artistic image of the city based on symbolization (the Case of Modern Architecture of Dnipro, Ukraine). Civil Engineering and Architecture, 10(3), 874–887.
  • [16] Husemoller D. (2000). Fibre Bundles. Novokuznetsk: NFMI Publ.
  • [17] Gerlovin I. L. (1990). Fundamentals of the Unified Theory of all the Interactions in a Substance. Leningrad: Energoatomizdat Publ.
  • [18] Bunker, A. (2009). Retrieved from: The Earthscraper. http://www.bunkerarquitectura.com/the-earthscraper
  • [19] Furuto, . (2011). The Earthscraper / BNKR Arquitectura. Retrieved from: https://www.archdaily.com/156357/the-earthscraperbnkr-arquitectura
  • [20] Praslova V. O. (2010), Architectural planning organization of underground trade and entertaining complexes, (PhD thesis, Kyiv National University of Construction and Architecture). Ukraine, Kyiv.
  • [21] Fairs, M. (2008). Hydro-Net by Iwamoto Scott. Retrieved from: https://www.dezeen.com/2008/02/08/hydro-net-by-iwamotoscott/
  • [22] Joss S. (2015). Sustainable Cities: Governing for Urban Innovation. London: Palgrave Macmillan.
  • [23] llyichev V. A. (2011). Biosphere Compatibility: Innovation Implementation Technologies. Developing Human Cities. Moscow, LIBROKOM Publ.
  • [24] Belyaev V. B. (2012). Paradigm Fundamentals for Sustainable and Developing Settlements. Urban Development, 1, 69—78.
  • [25] Belyaev V. L. (2012). Fundamentals of the Underground Urban Development. Moscow, MGSU Publ.
  • [26] Tinti F., Mariani D. & Tognoni E. (2011). Rhizome Tower. A Thousand Underground Plateaus. Retrieved from https://www.archilovers.com/projects/128110/rhizome-tower.html#info
  • [27] http://www.sustainable-cities.org
  • [28] James P., Magee, L., Scerri A. & Steger M., (2015). Urban Sustainability in Theory and Practice: Circles of Sustainability. London: Routledge.
  • [29] Parriaux A., Blunier P., Maire P. & Tacher L. (2007). The DEEP CITY Project: A Global Concept for a Sustainable Urban Underground Management. 11th ACUUS International Conference, Underground Space: Expanding the Frontiers, 255–260.
  • [30] Kudless, A. (2009). Sietch Nevada. Retrieved from: https://www.matsys.design/sietch-nevada
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b39f5e4c-37c7-483b-870d-29fd138a36d1
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