Analysis of the condition and methods of reconstruction of public buildings
DOI:
https://doi.org/10.32347/2707-501x.2024.54(2).50-61Keywords:
public buildings, reconstruction, energy efficiency, sustainable development, BIM technologies, urban infrastructure, architectural heritage, modernizationAbstract
The reconstruction of public buildings is one of the key directions of modern urban development, combining technical, ecological, and socio-cultural aspects. It plays a crucial role in maintaining the functionality of urban infrastructure, as public facilities provide educational, cultural, administrative, and medical services to society. At the same time, a significant part of this building stock is characterized by a high level of physical and moral deterioration, which necessitates modernization and adaptation to contemporary requirements.
This study reveals current trends and approaches to assessing the technical condition of buildings, including visual and instrumental methods, laser scanning, and 3D modeling. The use of these technologies makes it possible to obtain a comprehensive understanding of structural characteristics, detect hidden defects, and evaluate the operational resource of facilities. Particular attention is paid to the application of Building Information Modeling (BIM), which creates a unified digital environment for integrating multi-level information and improves the accuracy of design decisions. Such an approach ensures effective management of reconstruction processes, transparency of stakeholder interactions, and minimization of resource overruns.
The study emphasizes the economic and environmental feasibility of reconstruction. The use of local materials, the implementation of energy-saving technologies, the adoption of renewable energy systems, and the application of life-cycle management principles contribute to reducing operating costs and creating an environmentally safe environment. The social and cultural dimension of reconstruction highlights the need to ensure inclusiveness and accessibility, preserve architectural heritage, and reflect local identity.
The generalized results confirm that the reconstruction of public buildings is not merely a technical process of restoring functionality. It represents a comprehensive strategy of sustainable development aimed at improving the quality of life of the population, creating an energy-efficient and comfortable urban environment, and ensuring a balance between technical, ecological, and socio-cultural requirements.
References
Geeva G. M. Peculiarities of reconstruction of public buildings-objects of military infrastructure - for housing. - Article. - 2015. - No. 1. - P. 77–81. - [Electronic resource]. - Access mode: https://www.researchgate.net/publication/357893010_Osoblivosti_rekonstrukcii_gromadskih_budivel_-_ob'ektiv_vijskovoi_infrastrukturi_-_pid_zitlo
Odesa State Academy of Civil Engineering and Architecture. (2019). Methodical guidelines for the implementation of calculation and graphic work in the discipline “Assessment of the technical condition of buildings and preparation of expert conclusions (scientific and technical reports)” for the master’s level of education, specialty 192 “Construction and Civil Engineering”, specialization “Technology of building structures, products and materials” / comp. V. G. Sukhanov, V. M. Vyrovyi, S. V. Sukhanova. Odesa: ODABA. 52 p. Available at: https://odaba.edu.ua/upload/files/MV_RGR_Otsinka_tehnichnogo_stanu.pdf
7CI Group. (n.d.). Technical inspection of buildings and structures. Available at: https://7cigroup.com/posluhy-budivelnoyi-kompaniyi/tekhnichne-obstezhennya-budivel-i-sporud/
Sunak, P. O., Synii, S. V., Melnyk, Yu. A., Ksionshkhevych, L. M., Krantovska, O. M., & Oreshkovych, M. (2022). Reconstruction of engineering structures and networks, landscape based on laser scanning technology. Modern Technologies and Calculation Methods in Construction, 8(18), 147–154.
Laser Scanning Ukraine. (n.d.). Laser 3D scanning of buildings and real estate objects. [Electronic resource]. Available at: https://laser-scanning.com.ua/
NSDgroup. (n.d.). 3D house plan: advantages and features. [Electronic resource]. Available at: https://nsdgroup.com.ua/uk/stati/plan-doma-3d/
Khomenko, O., Petrenko, H., Ryzhakova, H., Petrukha, N., Chupryna, Yu., Malykhina, O., & Kushnir, O. (2022). Modern tools and software products for the administration of construction organizations in the conditions of transformation of management operating systems. Management of Complex Systems Development, (52), 113–125.
Ministry of Environmental Protection and Natural Resources of Ukraine. (2022). National Report of Ukraine “Sustainable Development: Society, Economy, Environment”. Kyiv.
State Building Norms of Ukraine (DBN V.2.2-9:2009). (2009). Public buildings and structures. Kyiv: Minregionbud of Ukraine. 85 p.
Ivakhnenko, I., Ryzhakova, G., Chupryna, I., Kushnir, I., Druzhynina, I., & Vakolyuk, A. (2021). Information-analytical support and organizational-structural regulation of operational activity of enterprises: economic evaluation and construction of management systems. Management of Complex Systems Development, (46), 91–99.
Cabinet of Ministers of Ukraine. (2021). On approval of the Concept for the implementation of state policy in the field of ensuring the energy efficiency of buildings in Ukraine for the period until 2030: Order dated December 29, 2021 No. 1706-r. [Electronic resource]. Available at: https://zakon.rada.gov.ua/laws/show/1706-2021-р#Text
State Building Norms of Ukraine (DBN V.2.2-40:2018). (2018). Inclusiveness of buildings and structures. Kyiv: Minregion of Ukraine. 45 p.
Chupryna, Yu. A. (2019). Involvement of applied advantages of BIM-technologies in the methodology and practice of forming the life cycle of projects within state target programs implemented by the construction cluster. Ekonomika ta Derzhava, (3), 67–70.
World Green Building Council. (2021). Health, Wellbeing & Productivity in Offices: The Next Chapter for Green Building. [Electronic resource]. Available at: https://worldgbc.org/
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