Management and safety of the roofs the buildings of the historical buildings of the city of Odessa (Ukraine)

Journals

Title：
Management and safety of the roofs the buildings of the historical buildings of the city of Odessa (Ukraine)
Author：
Iryna Posternak¹, Oleksii Posternak¹, Serhii Posternak²
Author Affiliation：
1.The Odessa State Academy of Civil Engineering and Architecture, Odessa, Ukraine
2.Company "Composite" Odessa, Ukraine
Received：Feb.14, 2023
Accepted：Mar.6, 2023
Published：Mar.20, 2023

Abstract

Any general process of managing an immovable object of a historical building consists of the individual management of interdependent processes: organizational, labor, information and others. It is proposed to create in the city of Odesa the "Corporate scientific and technical complex of urban planning and energy reconstruction "CSTC T-PPR" as an innovative organizational structure that in practice uses the accumulated scientific and technical potential for the reconstruction of historical buildings. buildings of the city of Odesa according to energy efficiency standards. The calculation of the predicted average service life of roofing made of metal tiles for decorating parts of some buildings of the historical buildings of the city of Odesa that are being reconstructed, 1820...1920, was performed. The received result much less than standard service life for the given kind of a metal tile (Тst = 20 years); Тav = 141,2 months ≈ 12 years depend on a considerable quantity of random factors, including from quality of civil and erection works.

Keywords

Management quality assessment, management expertise, operation of buildings, roofs, organizational structure, a complex of urban planning and energy reconstruction, an immovable object of a historical building.

Doi

https://doi.org/10.58396/smmce020102

References

[1] Posternak, I., Posternak, S., & Posternak, O. (2022). The Corporate Scientific and Technical Complex of Town-Planning Power Reconstruction: architectural and historical development of Odessa in the 19th and beginning of the 20th centuries. The First Special Humanitarian Issue of Ukrainian Scientists. European Scientific e-Journal, 2(17), 120-127. Ostrava: Tuculart Edition. doi:10.47451/urb2022-04-01 Retrieved from https://archive.org/details/urb2022-04-01/mode/2up

[2] Posternak, I. M. (2020). Organization of the production of reconstruction of buildings of historical urban development: report on Scientific and research work from 01.01.2017 to 31.12.2020 (interim) / Odessa State Academy of Civil Engineering and Architecture; driver I. M. Posternak. Subject code 55-НДР/ВІ, state registration number 0117U002172. Odesa, 74 p. Retrieved from file:///C:/Users/User1/AppData/Local/Temp/0117U002172.pdf

[3] Ulu, M., & Arsan, Z.D. (2020). Retrofit strategies for energy efficiency of historic urban fabric in Mediterranean climate.Atmosphere, 11(7), 742. doi:10.3390/atmos11070742

[4] Fouseki, K., Newton, D., Murillo Camacho, K.S., Nandi, S., & Koukou, T. (2020). Energy efficiency, thermal comfort, and heritage conservation in residential historic buildings as dynamic and systemic socio-cultural practices. Atmosphere, 11(6), 604. doi:10.3390/atmos11060604

[5] Press release. (2023, January 25) Odesa inscribed on UNESCO's World Heritage List in the face of threats of destruction.UNESCO. Retrieved from https://www.unesco.org/en/articles/odesa-inscribed-unescos-world-heritage-list-face-threatsdestruction

[6] Ministry of culture and information policy of Ukraine: Odesa city council. (2022). Nomination dossier for inscription on the World Heritage List "The historic center of the port city of Odesa": Nomination file, Retrieved from https://whc. unesco.org/en/list/1703/documents/ file:///C:/Users/Admin/Downloads/1703-2519-Nomination%20Text-en%20(1).pdf

[7] Konior, J., & Szóstak, M. (2020). The S-curve as a tool for planning and controlling of construction process – case study. Applied Sciences, 10(6), 2071. doi:10.3390/app10062071

[8] Kepakisan, I.W., Paturusi, S.A., Dwijendra, N.K.A., & Putra, D.G.A.D. (2021). Research on reconstruction of historical buildings. International Journal of Civil Engineering and Technology, 6(1), 32-39. doi:10.24843/IJEET. 2021. v06. i01. p06

[9] Ředina, T. (2019). Reconstruction of the historical building Foksal 13 and 15 in Warsaw. Acta Polytechnica CTU Proceedings, 23, 44-48. doi:10.14311/APP.2019.23.0044

[10] Borowski, M. (2022). Hotel adapted to the requirements of an nZEB building – thermal energy performance and assessment of energy retrofit plan. Energies, 15(17), 6332. doi:10.3390/en15176332

[11] Qu, W., Li, M.J., Zhang, X.Q., & Wang, Z. (2019). Management processes reconstruction of historical buildings supported by smart technology – a case study of Fuzhou city. The International archives of the photogrammetry, remote sensing and spatial information sciences, XLII-2/W15, 953–956. doi:10.5194/isprs-archives-XLII-2-W15-953-2019

[12] Przywara, D., & Rak, A. (2021). Monitoring of time and cost variances of schedule using simple earned value method indicators. Applied Sciences, 11(4), 1357. doi:10.3390/app11041357

[13] Lestari, Rita I., Guo, Brian H. W., & Goh, Yang Miang. (2019). Causes, solutions, and adoption barriers of falls from roofs in the Singapore construction industry. Journal of Construction Engineering and Management, 145(5), 04019027.1-04019027.12. doi:10.1061/(ASCE)CO.1943-7862.0001649

[14] D'Alpaos, C., & Valluzzi, M R. (2020). Protection of cultural heritage buildings and artistic assets from seismic hazard: a hierarchical approach. Sustainability, 12(4), 1608. doi:10.3390/su12041608

[15] Neves-Silva, R., & Camarinha-Matos, LM. (2022). Simulation-based decision support system for energy efficiency in buildings retrofitting. Sustainability, 14(19), 12216. doi:10.3390/su141912216

[16] Yarrow, T. (2019). How conservation matters: ethnographic explorations of historic building renovation. Journal of Material Culture, 24(1), 3-21. doi:10.1177/1359183518769111

[17] Leśniak, A., & Zima, K. (2018). Cost calculation of construction projects including sustainability factors using the Case Based Reasoning (CBR) method. Sustainability, 10(5), 1608. doi:10.3390/su10051608

[18] Chen, H.L., Chen, W.T., & Lin, Y.L. (2016). Earned value project management: Improving the predictive power of planned value. International Journal of Project Management, 34(1), 22-29. Retrieved from doi:10.1016/j.ijproman.2015.09.008

[19] Milat, M., Knezić, S., & Sedlar J. (2021). Resilient scheduling as a response to uncertainty in construction projects. Applied Sciences, 11(14), 6493. doi:10.3390/app11146493

[20] Alshboul, O., Shehadeh, A., & Hamedat, O. (2022). Governmental investment impacts on the construction sector considering the liquidity trap. Journal of management in engineering, 2(38). doi:10.1061/(ASCE)ME.1943-5479.0001003

[21] Szafranko, E., & Harasymiuk, J. (2022). Modelling of decision processes in construction activity. Applied Sciences, 12(8), 3797. doi:10.3390/app12083797

[22] Rachid, Z., Toufik, B., & Mohammed, B. (2019). Causes of schedule delays in construction projects in Algeria. International Journal of Construction Management, 19(5), 371-381. doi:10.1080/15623599.2018.1435234