Abstract
The paper considers the natural and anthropogenic causes of environmental pollution in the context of the modern urban development. There are analyzed processes of formation of urban agglomerations and the main tendencies of air pollution at increasing density of population and the amount of motor transport on their territory. The classification of modern types of urban smog and methods of dealing with it are given. Analyzed modern scientific research aimed at improving the ecological climate of cities. The main directions of ecologization of the over-urbanized environment in the context of the development of high-rise construction are considered on the basis of modern environmental techniques. These are such systems in the structure of buildings as: aeration, landscape gardening, the use of vertical gardens, modern facade technologies, air cleaning elements. The paper presents an overview of modern high-rise construction projects in which green technologies have been successfully implemented. The analyzed objects are located in the structure of large megacities with a high level of pollution of their atmosphere. It is proposed to introduce competitive architectural designing of futuristic projects while searching the new ways of ecologization of megalopolises.
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Potienko, N., Kalinkina, N., Bannikova, A.: Low-grade energy of the ground for civil engineering. MATEC Web Conf. 73, 06026 (2017)
Potienko, N.D., Kuznetsova, A.A., Solyakova, D.N., Klyueva, Y.E.: The global experience of deployment of energy-efficient technologies in high-rise construction. E3S Web Conf. 33, 01017 (2018)
Zhogoleva, A., Teryagova, A.: On methods of sustainable architectural design of bio-positive buildings in the low-rise residential development structure. In: MATEC, vol. 105, p. 01039 (2017)
Generalov, V., Generalova, E.: Urban Constr. Archit. 4, 23–29 (2015)
Ivanov, V., Bakhtina, I., Ivanova, T., Ilinykh, S.: Urban Constr. Archit. 2, 88–93 (2015)
Generalov, V.: High-rise residential buildings and complexes. Singapore. Experience in the design and construction of high-rise housing. LLC “Book”, Samara (2013)
Wong, L.T., Mui, K.W., Law, L.Y.: An energy consumption benchmarking system for residential buildings in Hong Kong. Building Serv. Eng. Res. Technol. 2(30), 135–142 (2009)
Krygina, A.: Resource, energy saving and environmental friendliness of construction as the basis for innovative sustainable development of residential real estate. Hous. Constr. 6, 57–59 (2015)
Paiho, S., Seppa, I.P., Jimenez, C.: An energetic analysis of a multifunctional façade system for energy efficient retrofitting of residential buildings in cold climates of Finland and Russia. Sustain. Cities Soc. 15, 75–85 (2015)
Windsweepers. High rise buildings, pp. 44–49, Moscow (2013)
https://www.admagazine.ru/architecture/neboskreb-iz-medovyh-sot-v-singapure-ot-byuro-ole-shirena. Accessed 21 Nov 2018
https://www.architecturaldigest.com/story/new-york-city-building-facade-cleans-air. Accessed 21 Dec 2018
https://www.archdaily.com/777498/bosco-verticale-stefano-boeri-architetti. Accessed 21 Nov 2018
Vertical forest: High-tech buildings 1, pp. 92–126 (2013)
https://realt.onliner.by/2017/02/10/bosco-2-comments. Accessed 31 Nov 2018
http://www.stoletie.ru/zarubejie/tam_budet_gorod-sad_916.htm. Accessed 21 Nov 2018
https://robo-hunter.com/news/zelenie-doma-budushego-novii-put-spaseniya-kitaya7074. Accessed 21 Nov 2018
http://skuky.net/140255. Accessed 21 Nov 2018
https://www.archdaily.com/902403/znera-proposes-a-network-of-smog-filtering-towers-across-delhi. Accessed 21 Nov 2018
Marchenko, M., Lapchenko, A.: Futuristic solutions to the problem of air pollution in industrial design. Young Scientist 7, 1081–1086 (2016)
https://pragmatika.media/zhivaja-arhitektura-oni-nabljudajut-za-nami/. Accessed 21 Nov 2018
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Potienko, N., Kuznetsova, A., Soya, D. (2020). Green Energy Technologies of Tall Buildings for Air Pollution Abatement in Metropolises. In: Murgul, V., Pasetti, M. (eds) International Scientific Conference Energy Management of Municipal Facilities and Sustainable Energy Technologies EMMFT 2018. EMMFT-2018 2018. Advances in Intelligent Systems and Computing, vol 982. Springer, Cham. https://doi.org/10.1007/978-3-030-19756-8_11
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DOI: https://doi.org/10.1007/978-3-030-19756-8_11
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