English
Русский 69-85 p.
High-rise construction is an urgent way of development of modern megacities in conditions of constant growth of the urban population and the accompanying shortage of land for the construction of residential and civil facilities. At the same time it is necessary to preserve the urban planning herit-age, which forms the individual character of the city. On the one hand it is necessary to orient to his-torical and cultural peculiarities of urban environment and available urban resources, on the other hand it is necessary to strive for individual architectural and urban solutions that would make the high-rise buildings under construction attractive for investors as well as for the urban appearance of the city and attract tourists. However, for the realization of creative ideas in the construction of high-rise buildings is necessary to search for adequate technological solutions, which is often a difficult task, especially in conditions of dense urban development.
The objective of the article is substantiation of organizational and technological solutions for high-rise construction under the conditions of dense urban development.
The analysis of experience in the construction of high-rise buildings has been carried out and substan-tiation of organizational and technological solutions of high-rise construction under the conditions of dense urban building has been provided in the paper.
On the basis of the conducted research there has been shown a possibility of increasing the efficiency of high-rise building management by means of improving the method of substantiation and selection of rational organizational and technological solutions of high-rise building construction, aimed at ef-fective use of resources and reduction of the cost of construction output due to taking into account the urban planning value of territories and the complex influence of energy saving and environmental fac-tors. At the same time the study results showed that during the construction of high-rise buildings with a developed underground part in the conditions of dense urban development it is necessary to solve a number of complex technical problems associated with technological features of construction and en-suring the stability of the existing building. Nevertheless, modern construction technologies and equipment make it possible to carry out a choice of available methods of construction of high-rise buildings with underground structures, for example, the technology "up - down", which makes it pos-sible to carry out work on the underground and aboveground parts of the building almost simultane-ously and thus accelerates construction time of buildings, especially high-rise and high-rise.
The results of the study can be used in the practice of high-rise construction in dense urban develop-ment.
The objective of the article is substantiation of organizational and technological solutions for high-rise construction under the conditions of dense urban development.
The analysis of experience in the construction of high-rise buildings has been carried out and substan-tiation of organizational and technological solutions of high-rise construction under the conditions of dense urban building has been provided in the paper.
On the basis of the conducted research there has been shown a possibility of increasing the efficiency of high-rise building management by means of improving the method of substantiation and selection of rational organizational and technological solutions of high-rise building construction, aimed at ef-fective use of resources and reduction of the cost of construction output due to taking into account the urban planning value of territories and the complex influence of energy saving and environmental fac-tors. At the same time the study results showed that during the construction of high-rise buildings with a developed underground part in the conditions of dense urban development it is necessary to solve a number of complex technical problems associated with technological features of construction and en-suring the stability of the existing building. Nevertheless, modern construction technologies and equipment make it possible to carry out a choice of available methods of construction of high-rise buildings with underground structures, for example, the technology "up - down", which makes it pos-sible to carry out work on the underground and aboveground parts of the building almost simultane-ously and thus accelerates construction time of buildings, especially high-rise and high-rise.
The results of the study can be used in the practice of high-rise construction in dense urban develop-ment.
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[22] Lusenkov Ya.V., Abakumov R.G. Advantages and disadvantages of structures used in the construction of high-rise and large-span buildings. Innovative Science. 2017. 4 (3). P. 86 – 88. (rus.)
[23] Kodysh E.N., Trekin N.N., Nikitin I.K. Design of multi-storey buildings with reinforced concrete frame: monograph. M.: Publishing House of the Association of Construction Uni-versities, 2009. 352 p. (rus.)
[24] Nikolaev S.V. Safety and reliability of high–rise buildings is a complex of highly profes-sional solutions. Unique and special technologies in construction. 2004. 1. P. 8 – 18. (rus.)
[25] Zhang Q., Yang B., Liu T., Li H., Lv J. Structural health monitoring of Shanghai Tower con-sidering time-dependent effects. International Journal of High-Rise Buildings. 2015. 4 (1). P. 39 – 44.
[26] Telichenko V.I., Korol E.A., Kagan P.B., Komissarov S.V., Arutyunov S.G., Afanasyev A.A. Management of programs and projects for the construction of high-rise buildings. Moscow: Publishing House of the Association of Construction Universities, 2010. 144 p. (rus.)
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[28] Magay A.A., Dubynin N.V. Architectural and artistic appearance of high-rise buildings. Ar-chitecture and construction of Russia. 2009. 4. P. 22 – 29. (rus.)
[29] Markhayuk A.K., Danyaeva L.N. Features of architectural and structural elements of build-ings in high-rise construction. Modern high-tech technologies. 2014. 5. P. 157 – 158. (rus.)
[30] Ali M.M., Moon K. S. Structural developments in tall buildings: current trends and future prospects. Architectural Science Review. 2007. 50 (3). P. 205 – 223. DOI: 10.3763/asre.2007.5027
[31] Mustakimov V.R., Yakupov S.N. Designing high-rise buildings: a textbook. Kazan: Publish-ing House of KSASU, 2014. 243 p. (rus.)
[32] Markovsky M.I. High-rise construction from monolithic reinforced concrete. Architecture and construction. 2011. № 2 (220). [electronic resource]. URL: http://ais.by/story/12613(rus.)
[33] Wood A. Rethinking the skyscraper in the ecological age: design principles for a new high-rise vernacular. Proceedings of the CTBUH 2014 Shanghai Conference «Future Cities: To-wards Sustainable Vertical Urbanism», September 16-19, 2014, Shanghai, China. 2014. P. 26 – 38.
[34] Maklakova T.G. High-rise buildings. Urban planning and architectural and structural prob-lems of design: monograph. M.: Publishing House of the Association of Construction Uni-versities, 2008. 160 p. (rus.)
[35] Xu Peifu, Fu Xiuxi, Wang Cuikun, Xiao Congzhen. Designing modern high-rise buildings. Moscow: Publishing House of the Association of Construction Universities, 2008. 469 p. (rus.)
[36] Zharov A.N. Social communications in architectural solutions of large office centers. Con-struction Materials and Products. 2022. 5 (6). P. 32 – 53. DOI: 10.58224/2618-7183-2022-5-6-32-53
[37] Nejad P.A. Beehive (hexagrid), new innovated structural system for tall buildings. Interna-tional Journal of High-Rise Buildings. 2016. 5 (4). P. 251 – 262. DOI: 10.21022/IJHRB.2016.5.4.251
[38] Generalov V.P., Generalova E.M. High-rise complexes with a system of vertical placement of service zones. Scientific review. 2015. 3. P. 163 – 167. (rus.)
[39] Senin N.I. Rational application of structural systems of multi-storey buildings. Bulletin of MSSU. 2013. 11. P. 76 – 83. (rus.)
[40] Generalov V.P. History of construction of high-rise buildings: monograph. Samara: SSASU, 2011. 192 p.
[41] Top 25 tallest buildings in Asia. [electronic resource]. URL: https://translated.turbopages.org/proxy_u/en-ru.ru.c3ecd12f-64a3e3f1-ad25f70a-74722d776562/https/www.ranker.com/list/tallest-buildings-in-asia/ranker-travel
[42] Bantserova O.L., Kasimova A.R. Bionic approach to the organization of architectural objects in the sustainable development paradigm. Civil Engineering and Architecture. 2023. 11 (2). P. 939 – 947. DOI: 10.13189/cea.2023.110230
[43] Glebova I.S., Berman S.S., Gribovskaya V.A. Housing construction: problems and prospects (as exemplified by Russia). Relações Internacionais do Mundo Atual. 2022. 2 (35). P. 182 – 196.
[44] Mayboroda V., Spirin P. Legal regulation in the field of territorial planning and urban zon-ing: main problems and ways to solve them. Journal of Law and Sustainable Development. 2023. 11 (1). Art. № e0254. DOI: 10.37497/sdgs.v11i1.254
[45] Kornilova A.A., Mamedov S.E. ogly, Karabayev G.A., Khorovetskaya Ye.M., Shlyakhtich Ye.V. Organization of an architectural environment based on spatial and constructive mod-ules in a severely continental climate. Civil Engineering and Architecture. 2023. 11 (2). P. 733 – 740. DOI: 10.13189/cea.2023.110215
[2] Zelentsova L.S., Petrov A.M., Bantserova O.L. Planning of intra-block and open urban spac-es in the historical environment of the city: social and managerial aspect. Construction mate-rials and products. 2023. 6 (3). P. 79 – 97. (rus.)
[3] Tamboli A.R. Tall and supertall buildings: planning and design. New York: McGraw-Hill, 2014. 416 p.
[4] Petrov A.M., Magomedov R.M., Savina S.V. Ecological safety of construction in the concept of sustainable development. Construction materials and products. 2023. 6 (1). P. 5 – 17. DOI: 10.58224/2618-7183-2023-6-1-5-17 (rus.)
[5] Isakov A.I. High-rise construction in Russia. Synergy of Sciences. 2016. 6. P. 442 – 458. (rus.)
[6] Granik Yu.G. Construction of high-rise buildings: monograph. M.: JSC "TSNIIEP residential and public buildings. 2010. 480 p. (rus.)
[7] Generalov V.P., Generalova E.M. High-rise residential buildings and complexes: mono-graph. Samara: LLC "Book", 2013. 398 p. (rus.)
[8] Shentsova O.M. High-rise buildings in the spatial composition of the urban environment. Architecture. Construction. Education. 2016. 1 (7). P. 102 – 110. (rus.)
[9] Generalov V.P., Generalova E.M. Prospects for the development of typology of high-rise buildings. The future of cities. Bulletin of the SSASU. Urban planning and architecture. 2015. 5 (1). P. 13 – 18. DOI: 10.17673/Vestnik.2015.01.2 (rus.)
[10] Shentsova O.M., Fedosikhin V.S. The development of high-rise construction in cities with a population of 250 to 500 thousand inhabitants (on the example of cities of the Ural Federal District). International Journal of Advanced Studies. 2017. 7 (2). P. 9 – 25. DOI: 10.12731/2227-930X-2017-2-9-25 (rus.)
[11] Vedyakov I.I., Meshkova E.I. Trends in world high-rise construction. Bulletin of VSASU. Ser.: Construction and archit. 2013. No. 31 (50). Part 1. Cities of Russia. Problems of design and implementation. P. 47 – 53. (rus.)
[12] Vasilyeva O., Sinyukov V., Ukhina T., Bazhin G., Otcheskiy I., Zakharova L. Influence of green architecture objects on the ecological and tourist attractiveness of the urban environ-ment. Anais Brasileiros de Estudos Turísticos. 2023. 13 (1). P. 1 – 9. DOI: 10.5281/zenodo.7927037
[13] Popov A.V., Syrova, O.I. University campuses in Russia: architectural and urban develop-ment typology. Nexo Revista Científica. 2021. Vol. 34. 06. P. 1826 – 1839. DOI: 10.5377/nexo.v34i06.13172
[14] Gunel M.H., Ilgin H.E. Tall buildings: structural systems and aerodynamic form. New York: Routledge, 2014. 214 p.
[15] Kolebirova Yu.S. Operation and prospects of construction of high-rise buildings in the mod-ern world. Regional development. 2017. 5 (23). P. 1 – 5. (rus.)
[16] Sarkisian M. Designing tall buildings: structure as architecture. London: Taylor & Francis Ltd, 2011. 224 p.
[17] Koklyugina L.A., Kaklyugin A.V. Technology and organization of construction of high-rise multifunctional buildings: textbook. Kazan: Publishing House of KSASU, 2016. 116 p. (rus.)
[18] Al-Kodmany K., Ali M.M. An overview of structural and aesthetic developments in tall buildings using exterior bracing and diagrid systems. The International Journal of High-Rise Buildings. 2016. 5 (4). P. 271 – 291. DOI: 10.21022/IJHRB.2016.5.4.271
[19] Levada G.P., Kostina L.K., Tarasov M.V. Determination of the most rational number of sto-reys of modern office buildings.Bulletin of the Southern Federal University. Series: Con-struction and Architecture. 2015. 15 (2). P. 5 – 12. (rus.)
[20] Dai L., Liao B. Innovative high efficient construction technologies in super high rise steel structure buildings. International Journal of High-Rise Buildings. 2014. 3 (3). P. 205 – 214.
[21] Kozlov M.V., Bezborodov E.L. Constructive schemes of high-rise buildings. Bulletin of MSSU. 2011. 1. P. 153 – 160. (rus.)
[22] Lusenkov Ya.V., Abakumov R.G. Advantages and disadvantages of structures used in the construction of high-rise and large-span buildings. Innovative Science. 2017. 4 (3). P. 86 – 88. (rus.)
[23] Kodysh E.N., Trekin N.N., Nikitin I.K. Design of multi-storey buildings with reinforced concrete frame: monograph. M.: Publishing House of the Association of Construction Uni-versities, 2009. 352 p. (rus.)
[24] Nikolaev S.V. Safety and reliability of high–rise buildings is a complex of highly profes-sional solutions. Unique and special technologies in construction. 2004. 1. P. 8 – 18. (rus.)
[25] Zhang Q., Yang B., Liu T., Li H., Lv J. Structural health monitoring of Shanghai Tower con-sidering time-dependent effects. International Journal of High-Rise Buildings. 2015. 4 (1). P. 39 – 44.
[26] Telichenko V.I., Korol E.A., Kagan P.B., Komissarov S.V., Arutyunov S.G., Afanasyev A.A. Management of programs and projects for the construction of high-rise buildings. Moscow: Publishing House of the Association of Construction Universities, 2010. 144 p. (rus.)
[27] Magay A.A. Architecture of high-rise buildings of the world. Novosibirsk: Kart Master, 2008. 140 p.
[28] Magay A.A., Dubynin N.V. Architectural and artistic appearance of high-rise buildings. Ar-chitecture and construction of Russia. 2009. 4. P. 22 – 29. (rus.)
[29] Markhayuk A.K., Danyaeva L.N. Features of architectural and structural elements of build-ings in high-rise construction. Modern high-tech technologies. 2014. 5. P. 157 – 158. (rus.)
[30] Ali M.M., Moon K. S. Structural developments in tall buildings: current trends and future prospects. Architectural Science Review. 2007. 50 (3). P. 205 – 223. DOI: 10.3763/asre.2007.5027
[31] Mustakimov V.R., Yakupov S.N. Designing high-rise buildings: a textbook. Kazan: Publish-ing House of KSASU, 2014. 243 p. (rus.)
[32] Markovsky M.I. High-rise construction from monolithic reinforced concrete. Architecture and construction. 2011. № 2 (220). [electronic resource]. URL: http://ais.by/story/12613(rus.)
[33] Wood A. Rethinking the skyscraper in the ecological age: design principles for a new high-rise vernacular. Proceedings of the CTBUH 2014 Shanghai Conference «Future Cities: To-wards Sustainable Vertical Urbanism», September 16-19, 2014, Shanghai, China. 2014. P. 26 – 38.
[34] Maklakova T.G. High-rise buildings. Urban planning and architectural and structural prob-lems of design: monograph. M.: Publishing House of the Association of Construction Uni-versities, 2008. 160 p. (rus.)
[35] Xu Peifu, Fu Xiuxi, Wang Cuikun, Xiao Congzhen. Designing modern high-rise buildings. Moscow: Publishing House of the Association of Construction Universities, 2008. 469 p. (rus.)
[36] Zharov A.N. Social communications in architectural solutions of large office centers. Con-struction Materials and Products. 2022. 5 (6). P. 32 – 53. DOI: 10.58224/2618-7183-2022-5-6-32-53
[37] Nejad P.A. Beehive (hexagrid), new innovated structural system for tall buildings. Interna-tional Journal of High-Rise Buildings. 2016. 5 (4). P. 251 – 262. DOI: 10.21022/IJHRB.2016.5.4.251
[38] Generalov V.P., Generalova E.M. High-rise complexes with a system of vertical placement of service zones. Scientific review. 2015. 3. P. 163 – 167. (rus.)
[39] Senin N.I. Rational application of structural systems of multi-storey buildings. Bulletin of MSSU. 2013. 11. P. 76 – 83. (rus.)
[40] Generalov V.P. History of construction of high-rise buildings: monograph. Samara: SSASU, 2011. 192 p.
[41] Top 25 tallest buildings in Asia. [electronic resource]. URL: https://translated.turbopages.org/proxy_u/en-ru.ru.c3ecd12f-64a3e3f1-ad25f70a-74722d776562/https/www.ranker.com/list/tallest-buildings-in-asia/ranker-travel
[42] Bantserova O.L., Kasimova A.R. Bionic approach to the organization of architectural objects in the sustainable development paradigm. Civil Engineering and Architecture. 2023. 11 (2). P. 939 – 947. DOI: 10.13189/cea.2023.110230
[43] Glebova I.S., Berman S.S., Gribovskaya V.A. Housing construction: problems and prospects (as exemplified by Russia). Relações Internacionais do Mundo Atual. 2022. 2 (35). P. 182 – 196.
[44] Mayboroda V., Spirin P. Legal regulation in the field of territorial planning and urban zon-ing: main problems and ways to solve them. Journal of Law and Sustainable Development. 2023. 11 (1). Art. № e0254. DOI: 10.37497/sdgs.v11i1.254
[45] Kornilova A.A., Mamedov S.E. ogly, Karabayev G.A., Khorovetskaya Ye.M., Shlyakhtich Ye.V. Organization of an architectural environment based on spatial and constructive mod-ules in a severely continental climate. Civil Engineering and Architecture. 2023. 11 (2). P. 733 – 740. DOI: 10.13189/cea.2023.110215
Zharov A.N. Analysis of International Experience in the Construction of High-Rise Buildings and Justification of Organizational and Technological Solutions for High-Rise Construction. Construction materials and products. 2023. 6 (4.) P. 69 – 85. https://doi.org/10.58224/2618-7183-2023-6-4-69-85