AbstractAbout AuthorsReferences
To integrate historical buildings into a modern urban environment, their functional expansion is necessary. The positive and negative aspects of placing structures underground are given. Ways to solve some problems of underground premises are proposed, in particular those related to the difficulty of providing them with natural light. A typology of ways to expand the underground space during the reconstruction of historical buildings is introduced. On the basis of implemented projects the most sparing technologies for expanding the underground space under existing facilities in relation to historical structures are analyzed.
A.D. SEROV, Engineer, Senior Lecturer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
National Research Moscow State University of Civil Engineering (26, Yaroslavskoe Highway, Moscow, 129337, Russian Federation)
1. Shashkin A.G., Zentsov V.N., Ulitskii V.M. Development of the underground space of the metropolis. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2018. No. 9, pp. 30–36. (In Russian).
2. Shashkin A.G., Shashkin K.G. Underground construction in St. Petersburg: a brief overview of technical solutions. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2015. No. 9, pp 30–35. (In Russian).
3. Bogov C.G. Application of jet grouting technology for the development of the underground space of St. Petersburg. Promyshlennoe i grazhdanskoe stroitel’stvo. 2017. No. 12, pp 31–43. (In Russian).
4. Belyaev V.L., Belyaev V.B. Development of the underground space of cities in the aspect of their sustainable development. Vestnik MUCI. 2014. No. 2, pp. 7–12. (In Russian).
5. Serov A.D., Dmitriev I.K. Influence of transport noise on living environment in New Moscown. IOP Conference Series: Earth and Environmental Science. 2021. No. 687, pp. 1–6. DOI: 10.1088/1755-1315/867/1/012109
6. Denisova Yu.V., Koren’kova G.V. On the issue of the need to develop the underground space of cities. Vestnik Belgorodskogo gosudarstvennogo tekhnologicheskogo universiteta im. V.G. Shukhova. 2016. No. 11, pp 99–103. (In Russian).
7. Shulyat’ev O.A., Mozgacheva O.A., Pospekhov V.S. Osvoenie podzemnogo prostranstva gorodov [Development of the underground space of cities]. Moscow: ASV. 2017. 510 p.
8. Shashkin A.G., Bogov S.G. The use of jet grouting technology in the construction of an underground volume in conditions of weak clay soils. Osnovaniya, fundamenty i mekhanika gruntov. 2005. No. 5, pp. 7–11. (In Russian).
9. Mangushev R.A., Osokin A.I., Sotnikov S.I. Geotekhnika Sankt-Peterburga. Opyt stroitel’stva na slabykh gruntakh [Geotechnics of St. Petersburg. Experience in construction on weak soils]. Moscow: ASV. 2018. 386 p.
10. Ulitskii V.M., Shashkin A.G. Arrangement of the underground volume of the second stage of the Mariinsky Theater in conditions of weak clay soils. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2011. No. 10, pp. 24–31. (In Russian).
11. Ulitskii V.M., Bogov S.G., Shakhnazarov A.V. Construction of safe parking lots in the built-up central part of St. Petersburg. Gidrotekhnika. 2012. No. 3, pp. 105–109. (In Russian).
12. Sosnovskikh L.V., Oleneva A.A. Atrium recessed public spaces. Sovremennye tekhnologii v stroitel’stve. Teoriya i praktika. 2017. Vol. 2, pp. 13–20. (In Russian).
13. Dement’eva V.A., Rakhmanov V.C., Shashkin A.G. Vozrozhdenie Kamennoostrovskogo teatra: sintez nauchnykh dostizhenii restavratsii i geotekhniki [Revival of the Kamennoostrovsky Theatre: synthesis of scientific achievements of restoration and geotechnics]. Saint Petersburg: Stroizdat Severo-Zapad, Georekonstruktsiya. 2012. 166 p.
14. Ulitskii V.M., Shashkin A.G. Preservation of architectural memorials and ensuring their mechanical safety. Promyshlennoe i graghdanskoe stroitel’stvo. 2017. No. 7, pp. 31–39. (In Russian).
15. Sokolov N.S. Technology for increasing the bearing capacity of the base. Stroitel’nye Materialy [Construction Materials]. 2019. No. 6, pp. 67–71. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2019-771-6-67-71
16. Solov’ev A.K. Daylight in underground spaces. Svetotekhnika. 2018. No. 2, pp. 70–74. (In Russian).
17. Malysheva A.N., Kononova M.S., Vorob’eva Yu.A. Analysis of applicability of various natural lighting systems for civil design buildings. Zhilishchnoe khozyaistvo i kommunal’naya infrastruktura. 2018. No. 2 (5), pp. 9–17. (In Russian).
2. Shashkin A.G., Shashkin K.G. Underground construction in St. Petersburg: a brief overview of technical solutions. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2015. No. 9, pp 30–35. (In Russian).
3. Bogov C.G. Application of jet grouting technology for the development of the underground space of St. Petersburg. Promyshlennoe i grazhdanskoe stroitel’stvo. 2017. No. 12, pp 31–43. (In Russian).
4. Belyaev V.L., Belyaev V.B. Development of the underground space of cities in the aspect of their sustainable development. Vestnik MUCI. 2014. No. 2, pp. 7–12. (In Russian).
5. Serov A.D., Dmitriev I.K. Influence of transport noise on living environment in New Moscown. IOP Conference Series: Earth and Environmental Science. 2021. No. 687, pp. 1–6. DOI: 10.1088/1755-1315/867/1/012109
6. Denisova Yu.V., Koren’kova G.V. On the issue of the need to develop the underground space of cities. Vestnik Belgorodskogo gosudarstvennogo tekhnologicheskogo universiteta im. V.G. Shukhova. 2016. No. 11, pp 99–103. (In Russian).
7. Shulyat’ev O.A., Mozgacheva O.A., Pospekhov V.S. Osvoenie podzemnogo prostranstva gorodov [Development of the underground space of cities]. Moscow: ASV. 2017. 510 p.
8. Shashkin A.G., Bogov S.G. The use of jet grouting technology in the construction of an underground volume in conditions of weak clay soils. Osnovaniya, fundamenty i mekhanika gruntov. 2005. No. 5, pp. 7–11. (In Russian).
9. Mangushev R.A., Osokin A.I., Sotnikov S.I. Geotekhnika Sankt-Peterburga. Opyt stroitel’stva na slabykh gruntakh [Geotechnics of St. Petersburg. Experience in construction on weak soils]. Moscow: ASV. 2018. 386 p.
10. Ulitskii V.M., Shashkin A.G. Arrangement of the underground volume of the second stage of the Mariinsky Theater in conditions of weak clay soils. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2011. No. 10, pp. 24–31. (In Russian).
11. Ulitskii V.M., Bogov S.G., Shakhnazarov A.V. Construction of safe parking lots in the built-up central part of St. Petersburg. Gidrotekhnika. 2012. No. 3, pp. 105–109. (In Russian).
12. Sosnovskikh L.V., Oleneva A.A. Atrium recessed public spaces. Sovremennye tekhnologii v stroitel’stve. Teoriya i praktika. 2017. Vol. 2, pp. 13–20. (In Russian).
13. Dement’eva V.A., Rakhmanov V.C., Shashkin A.G. Vozrozhdenie Kamennoostrovskogo teatra: sintez nauchnykh dostizhenii restavratsii i geotekhniki [Revival of the Kamennoostrovsky Theatre: synthesis of scientific achievements of restoration and geotechnics]. Saint Petersburg: Stroizdat Severo-Zapad, Georekonstruktsiya. 2012. 166 p.
14. Ulitskii V.M., Shashkin A.G. Preservation of architectural memorials and ensuring their mechanical safety. Promyshlennoe i graghdanskoe stroitel’stvo. 2017. No. 7, pp. 31–39. (In Russian).
15. Sokolov N.S. Technology for increasing the bearing capacity of the base. Stroitel’nye Materialy [Construction Materials]. 2019. No. 6, pp. 67–71. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2019-771-6-67-71
16. Solov’ev A.K. Daylight in underground spaces. Svetotekhnika. 2018. No. 2, pp. 70–74. (In Russian).
17. Malysheva A.N., Kononova M.S., Vorob’eva Yu.A. Analysis of applicability of various natural lighting systems for civil design buildings. Zhilishchnoe khozyaistvo i kommunal’naya infrastruktura. 2018. No. 2 (5), pp. 9–17. (In Russian).
For citation: Serov A.D. Expanding the borders of the city due to the development of underground spaces during the reconstruction of historical buildings. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2023. No. 10, pp. 35–41. (In Russian). DOI: https://doi.org/10.31659/0044-4472-2023-10-35-41