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Delays in Execution of Building Projects and their Financial Consequences for Contractors - Polish View

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The execution of building projects should be planned in a realistic time, at the assumed cost and quality, and take into account the risk of the contract parties. However, even the best-planned construction projects are exposed to the risk of delays. The article reviews causes of delays in the construction projects identified both in the world and in Poland. The consequences of delays, regardless of the responsible party, should be clearly spelled out in the contracts. Financial penalties for delays are commonly used in agreements for construction works, and their level, according to the presented analyses, is usually higher in the public than in the private sector. Attention has been also paid to the few models presented in the literature that make it possible to predict delays and prevent their effects. It seems that this is an interesting direction for further research.
Rocznik
Strony
99--108
Opis fizyczny
Bibliogr. 42 poz., rys., tab.
Twórcy
  • Cracow University of Technology, Faculty of Civil Engineering, Division of Management in Civil Engineering
Bibliografia
  • 1. Al-Kharashi, A nad Skitmore, M 2009. Causes of delays in Saudi Arabian public sector construction projects. Construction Management and Economics 27, 3-23.
  • 2. Anysz, H and Zbiciak, A 2013. The reasons of delays in building contracts execution – the preliminary analysis of the survey (in Polish). Autobusy: Technika, Eksploatacja, Systemy Transportowe 3, 963.
  • 3. Anysz, H, Zbiciak, A nad Ibadov, N 2016. Measurement of prognosis trueness for delays in completion dates of construction contracts predicted by artificial neural networks (in Pilish). Materiały Budowlane 6, 3-5.
  • 4. Baldwin, J.R and Manthei J.M 1971. Causes of delays in the construction industry. ASCE Journal of the Construction Division 97, 177-87.
  • 5. Baryłka, A and Obolewicz, J 2020. Safety and health protection (s&hp) in managing construction projects. Inżynieria Bezpieczeństwa Obiektów Antropogenicznych 1, 1-10.
  • 6. Dytczak, M and Wojtkiewicz, T 2011. Identification of the impact delay factors during realisation of complex construction projects (in Polish). Budownictwo i Inżynieria Środowiska 2(4), 481-485.
  • 7. Egwim, C.N, Alaka, H, Toriola-Coker, L.O, Balogun, H, Sunmola, F 2021. Applied artificial intelligence for predicting construction projects delay. Machine Learning with Applications 6, 100166.
  • 8. Faridi, A.S, El-Sayegh, S.M 2006. Significant factors causing delay in the UAE construction industry. Construction Management and Economics 24(11), 1167-1176.
  • 9. Głuszak, M and Leśniak, A 2015. Construction delays in clients opinion - multivariate statistical analysis. Procedia engineering 123, 182-189.
  • 10. Gnela, B 2009. Contractual Penalties under the Civil Code and According to the Principles of European Contract Law (PECL) (in Polish). Zeszyty Naukowe/Uniwersytet Ekonomiczny w Krakowie 802, 5-21.
  • 11. Gondia, A, Siam, A, El-Dakhakhni, W Nassar A.H 2020. Machine learning algorithms for construction projects delay risk prediction. Journal of Construction Engineering and Management 146(1), 04019085.
  • 12. Hoła. B and Szostak, M 2015. Analysis of the state of the accident rate in the construction industry in European Union countries. Archives of Civil Engineering 61(4),19-34.
  • 13. Ibadov, N and Kulejewski, J 2015. Evaluation of the project timeliness with fuzzy constraints, International Conference Of Numerical Analysis And Applied Mathematics [ICNAAM-2015]. AIP Conference Proceedings 1648, 1, 600002.
  • 14. Jermoszuk, A 2016. Contractual penalty on account of failure to perform or improper performance of the construction works contract (in Polish). Przegląd Budowlany 9, 54-58.
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  • 16. Konior, J and Szóstak, M 2020. Deviations and implementation of the budget and schedule of construction projects monitored by the bank supervision on the example of residential buildings. Scientific Review Engineering and Environmental Sciences 2020(4), 485-493.
  • 17. Krzemiński, M 2017. Optimization of work schedules executed using the shop model, assuming multitasking performed by work crews. Archives of Civil Engineering 63(4), 3-19.
  • 18. Leśniak, A and Plebankiewicz, E 2010. Delays in construction works (in Polish). Zeszyty Naukowe WSOWL 3, 332-339.
  • 19. Leśniak, A 2012. Reasons for construction delays in the opinions of contractors (in Polish). Technical Transactions. Civil Engineering 109(1-B), 57-68.
  • 20. Leśniak, A, Juszczyk, M, Piskorz, G 2018. Delays factors of a completion construction project aggregation with the use of cluster analysis (in Polish). Materiały Budowlane 10, 62-65.
  • 21. Leśniak, A and Piskorz, G 2018. Delay factors in execution of design & build construction projects. Acta Scientiarum Polonorum. Architectura 17(4), 113-124.
  • 22. Leśniak, A and Górka, M 2020. Contractual penalties in construction contracts (in Polish). In: Drozd, W, Kozioł, P, Zima, K, (Eds.) Wybrane problemy naukowe budownictwa: 65. Konferencja Naukowa Komitetu Inżynierii Lądowej i Wodnej PAN oraz Komitetu Nauki PZITB, Warszawa. Wydawnictwo PWN, 125-138.
  • 23. Leśniak, A, Górka, M, Skrzypczak, I 2021. Barriers to BIM implementation in architecture, construction, and engineering projects -The polish study. Energies 14(8), 2090.
  • 24. Lo, T.Y, Fung, I.W.H, Tung, K.C.F 2006. Construction delays in Hong Kong civil engineering projects. Journal of Construction Engineering and Management 132(6), 636-49.
  • 25. Mrówczyńska, M, Skiba, M, Leśniak, A, Bazan-Krzywoszańska, A, Janowiec, F, Sztubecka, M, Grech, R, Kazak, J.K 2022. A new fuzzy model of multi-criteria decision support based on Bayesian networks for the urban areas' decarbonization planning. Energy Conversion and Management 268, 116035.
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  • 27. Pasek, R, Jaskowska-Lemańska, J, Wałach, D, Rokita, T, Kamiński, P 2022. Evaluation of Technical Condition and Durability of Wooden Shaft Guides with Application of Non-Destructive and Semi- Destructive Testing Methods. Materials 15(14), 4769.
  • 28. Pietrzykowski, K 2009. Civil Code. Commentary on articles 450-1088. Volume II (in Polish). Warszawa, Wydawnictwo C.H. Beck.
  • 29. Plebankiewicz, E, Zima, K, Wieczorek, D 2016. Life cycle cost modelling of buildings with consideration of the risk. Archives of Civil Engineering 62(2), 149-166.
  • 30. Plebankiewicz, E, Zima, K, Wieczorek, D 2021. Modelling of time, cost and risk of construction with using fuzzy logic. Journal of Civil Engineering & Management 27(6), 412-426.
  • 31. Report on the application of contractual penalties in public procurements (in Polish) https://www.uzp.gov.pl/_data/assets/pdf_file/0018/36414/Raport-kary_umowne_2018.pdf.
  • 32. Sambasivan, M and Soon Y.W 2007. Causes and effects of delays in Malaysian construction industry. International Journal of Project Management 25, 517-526.
  • 33. Sheng, D, Ding, L, Zhong, B, Love, P.E, Luo, H, Chen, J 2020. Construction quality information management with blockchains. Automation in construction 120, 103373.
  • 34. Skiba, M, Mrówczyńska, M, Sztubecka, M, Bazan-Krzywoszańska, A, Kazak, J. K, Leśniak, A, Janowiec, F 2021. Probability estimation of the city’s energy efficiency improvement as a result of using the phase change materials in heating networks. Energy 228, 120549.
  • 35. Skrzypczak, I 2023. Statistical Quality Inspection Methodology in Production of Precast Concrete Elements. Materials 16(1), 431.
  • 36. Skrzypczak, I, Oleniacz, G, Leśniak, A, Zima, K, Mrówczyńska, M, Kazak, J. K 2022. Scan-to-BIM method in construction: Assessment of the 3D buildings model accuracy in terms inventory measurements. Building Research & Information 50(8), 859-880.
  • 37. Sweis, G, Sweis, R, Abu Hammad A, Shboul, A 2008. Delays in construction projects: The case of Jordan. International Journal of Project Management 26, 665-674.
  • 38. Sztubecka, M, Skiba, M, Mrówczyńska, M, Bazan-Krzywoszańska, A 2020. An innovative decision support system to improve the energy efficiency of buildings in urban Areas. Remote Sensing 12(2), 259.
  • 39. Sztubecka, M, Skiba, M, Mrówczyńska, M, Mathias, M 2020. Noise as a Factor of Green Areas Soundscape Creation. Sustainability 12(3), 999.
  • 40. Toor, S and Ogunlana, S 2008. Problems causing delays in major construction projects in Thailand, Construction Management and Economics 26, 395-408.
  • 41. Wałach, D 2020. Analysis of factors affecting the environmental impact of concrete structures. Sustainability 13(1), 204.
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Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8040386a-e734-42eb-b269-d19219e5de5f
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