Обґрунтування оптимальної послідовності реконструкції промислових будівель у проєктах ревіталізації з урахуванням їх майбутньої функції

T. S. Kravchunovska; K. V. Balakin

doi:10.15802/stp2025/346790

Authors

T. S. Kravchunovska Ukrainian State University of Science and Technologies, SEI PSACEA, Ukraine https://orcid.org/0000-0002-0986-8995
K. V. Balakin Ukrainian State University of Science and Technologies, SEI PSACEA, Ukraine https://orcid.org/0009-0007-8329-3505

DOI:

https://doi.org/10.15802/stp2025/346790

Keywords:

revitalization, reconstruction; complex approach; determining factors; criteria; optimal sequence of reconstruction of objects; sustainable development, reconstruction, complex approach, determining factors, criteria, optimal sequence of reconstruction of objects, sustainable development

Abstract

Purpose. Development of a methodological approach to the revitalization of former transport infrastructure objects, taking into account their future function (functions) within the constraints of time and resources. Methodology. A systems approach to modelling the revitalization process in terms of substantiating the sequence of inclusion of non-functioning transport infrastructure objects in the project; a comprehensive approach to forming a set of determining factors of exogenous and endogenous nature. Findings. A methodological approach to the revitalization of former transport infrastructure objects has been improved, taking into account the preservation of the authenticity of buildings, the adaptive use of their space, the application of building information modelling technologies, artificial intelligence, the Internet of Things, selective dismantling of structures, and soil remediation to meet safety, comfort, inclusiveness, and energy efficiency requirements, ensuring the commissioning of objects with specified technical and economic characteristics within existing resource constraints. Originality. A systems approach has been applied to the organization of the revitalization processes of former transport infrastructure objects, which involves a step-by-step analysis of the sequence of transformation of buildings and structures, taking into account the determining factors influencing the choice of their future function; at the same time, the tasks of transforming urban development by rethinking the functions of existing buildings instead of constructing new objects correlate with the tasks of creating sustainable housing, economic growth, responsible production and consumption. Practical value. The task of transforming urban development by rethinking the functions of existing industrial buildings instead of constructing new objects correlates with the tasks of creating sustainable housing, economic growth, responsible production and consumption. The proposed approach to determining the optimal sequence for the reconstruction of unused transport infrastructure objects with a change in their functional purpose in revitalization projects allows priorities to be set taking into account the influence of a number of determining factors and provides state authorities, local self-government bodies and investors with tools for making effective decisions under time and resource constraints, taking into account technical, legal and financial aspects.

References

Teplova izoliatsiia ta enerhoefektyvnist budivel, 23 DBN V.2.6-31:2021 (2022). (in Ukrainian)

Isachenko, I. (2020). Operatsiia «Khafensiti». Naibilshomu urban-proiektu Yevropy 20 rokiv. PRAGMATIKA.MEDIA. Retrieved from https://pragmatika.media/operacija-hafensiti-najbilshomu-urban-proiektu-ievropi-20-rokiv/ (in Ukrainian)

Kovalov, V. V. (2021). Rozvytok naukovo-metodolohichnykh osnov orhanizatsiino-tekhnolohichnoho proektu-vannia rekonstruktsii promyslovykh budivel zi zminoiu funktsionalnoho pryznachennia (Dr.Sc. dissertation). Dnipro: DVNZ PDABA. (in Ukrainian)

Kovalov, V. V., Bronevytskyi, А. P., Zaiats, Ye. І., Kravchunovska, Т. S., & Kosolapov, А. F. (2023). Peculiarities of industrial buildings and their reconstruction with a change of functional purpose. Ukrainian journal of civil engineering and architecture, 4, 101-110. DOI: https://doi.org/10.30838/J.BPSACEA.2312.290823.101.976 (in Ukrainian)

Kovalskyi, V. P., & Abramovych, V. S. (2021). Principles of qualitative revitalization of public spaces. Modern technology, materials and Design in construction, 31(2), 54-59. DOI: https://doi.org/10.31649/2311-1429-2021-2-54-59 (in Ukrainian)

Kravchunovska, Т. S., Bronevytskyi, S. P., Kovalov, V. V., Danylova, Т. V., & Tkach, Т. V. (2019). Planuvannia rozmishchennia i orhanizatsiia budivnytstva ta rekonstruktsii obiektiv dostupnoho zhytla z urakhuvanniam mistoformuiuchykh osoblyvostei terytorii velykykh mist: monografiya. Dnipro: Litohraf. (in Ukrainian)

Kreatyvnyi klaster Kyieva. (2022). Art zavod Platforma. Retrieved from https://artzavodplatforma.com/wp-content/uploads/2022/06/azp.pdf (in Ukrainian)

Lishchuk, A. M., Parfeniuk, А. І. , Draha, М. V., & Horodyska І. М. (2020). Kontseptsiia reabilitatsii zabrudnenykh hruntiv. Kyiv: IAP NAAN. Retrieved from https://www.agroeco.org.ua/wp-content/uploads/Publications/reabilitatsiia_hruntiv.pdf (in Ukrainian)

Osypova, А. О. (2022). Revitalizatsiia protsesiv budivelnoho vyrobnytstva. Optymizatsiia orhanizatsiino-tekhnolohichnykh rishen: monografiya. Kyiv: FOP Yamchynskyi О. V. (in Ukrainian)

Pro muzei munitsypalnoho budivnytstva u Krakovi. (2022). Krakow-future.eu. Retrieved from https://krakow-future.eu/uk/eternal-pro-muzej-municzypalnogo-budivnycztva-u-krakovi (in Ukrainian)

Kabinet Ministriv Ukrainy. (2021). Pro skhvalennia Kontseptsii vprovadzhennia tekhnolohii budivelnoho in-formatsiinoho modeliuvannia (VIM-tekhnolohii) v Ukraini ta zatverdzhennia planu zakhodiv z ii reali-zatsii. Retrieved from https://zakon.rada.gov.ua/laws/show/152-2021-p#Text (in Ukrainian)

Prostir Lem Station na terytorii istorychnoho tramvainoho depo vidkryly dlia vidviduvachiv. (2025). ZAXID.NET. Retrieved from https://zaxid.net/u_lvovi_vidkrili_prostir_lem_station_na_teritoriyi_istorichnogo_tramvaynogo_depo_n1604378 (in Ukrainian)

Rybchynskyi, O. V. (2017). Formuvannia i revitalizatsiia seredmist istorychnykh mist Ukrainy (Dr.Sc. disserta-tion). Lviv: NU «Lvivska politekhnika». (in Ukrainian)

Sych, О. А., Sytnyk, N. S., Stasyshyn, А. V., & Kruhliakova, VА. V. (2023). Revatalizatsiia mist – dosvid yevropeiskoho soiuzu dlia Ukrainy. Lviv: LNU imeni Ivana Franka. (in Ukrainian)

Subin-Kozhevnikova, А. S., Khorosha, О. І., & Holosenko, А. S. (2021). Basic principles and techniques of renovation of industrial buildings on the example of Vinnytsia. Modern technology, materials and Design in construction, 31(2), 67-72. DOI: https://doi.org/10.31649/2311-1429-2021-2-67-72 (in Ukrainian)

History De Hallen Amsterdam. From tram depot to the beating heart of Amsterdam-West. (2025). De Hallen Amsterdam. Retrieved from https://www.dehallen-amsterdam.nl/en/history (in English)

Ivashko, Yu., Ivashko, O., & Dmytrenko, A. (2023). Revitalization of urban areas in the light of social and environmental problems. Spatial Development, 5, 33-50. DOI: https://doi.org/10.32347/2786-7269.2023.5.33-50 (in English)

Kusiak, J. (2019). Revitalizing urban revitalization in Poland: towards a new agenda for research and practice. Urban Development Issues, 63, 17-23. DOI: https://doi.org/10.2478/udi-2019-0013 (in English)

Parysek, Jerzy J. (2017). Urban revitalization in Poland: problems, dilemmas, challenges and hopes. Studia Re-gionalna. Journal of the Polish Academy of Sciences, 50, 103-121. DOI: https://doi.org/10.12657/studreg-50-06 (in English)

Selvina, D. (2022). Revitalization of Industrial Buildings. International Journal of Applied Sciences: Current and Future Research Trends (IJASCFRT), 5(1), 16-29. Retrieved from https://ijascfrtjournal.isrra.org/Applied_Sciences_Journal/article/view/1277/82 (in English)

The refurbishment of St Katharine Docks marina in London: an urban project that looks after the environment. (2025). Poralu Marine. Retrieved from https://www.poralu.com/en/2559/ (in English)