Identyfikatory
Warianty tytułu
Analysis of the impact of work intensification methods on the duration of construction processes
Języki publikacji
Abstrakty
W artykule rozważano problem doboru metod intensyfikacji pracy z uwzględnieniem ich kosztów i efektów w postaci skrócenia czasu trwania procesów budowlanych. Metody te obejmują: pracę w nadgodzinach, pracę w weekendy, pracę na dwie zmiany oraz zatrudnianie bardziej wydajnych brygad roboczych. Opracowano model matematyczny dla powtarzalnych procesów budowlanych, zapewniający minimalizację przerw w pracy brygad oraz redukcję czasu realizacji całego przedsięwzięcia. W celu weryfikacji poprawności modelu opracowane podejście zastosowano do wyznaczenia wariantów organizacyjnych (działań redukujących czas realizacji procesów) dla przykładowego przedsięwzięcia budowlanego.
The paper considers the problem of selecting methods of work acceleration, taking into account their costs and effects in terms of reducing the duration of construction processes. These methods include: working overtime, working on weekends, working in two shifts and employing more efficient work brigades. A mathematical model was developed for repetitive construction processes, ensuring minimization of interruptions in the crews’ work and reduction of the time of the entire project. In order to verify the correctness of the model, the developed approach was used to determine organizational variants (activities that reduce process completion time) for a sample construction project.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
88--92
Opis fizyczny
Bibliogr. 21 poz., il., tab.
Twórcy
Bibliografia
- [1] Jaśkowski P., Biruk S., Minimizing the Duration of Repetitive Construction Processes with Work Continuity Constraints, Computation 14/2019
- [2] Biruk S., Rzepecki L., Scheduling Repetitive Construction Processes Using the Learning-Forgetting Theory, IOP Conference Series: Materials Science and Engineering, 471:112039/2019
- [3] Arditi D., Tokdemir O. B., Suh K., Challenges in line-of-balance scheduling, Journal of Construction Engineering and Management 128:6/2002
- [4] Gouda A., Hosny O., Nassar K., Optimal crew routing for linear repetitive projects using graph theory. Automation in Construction 81/2017
- [5] Chrzanowski E. N., Johnston D. W., Application of Linear Scheduling. Journal of Construction Engineering and Management 112/1986
- [6] Harmelink D. J., Rowings J. E., Linear scheduling model: development of controlling activity path, Journal of Construction Engineering and Management 124/1998
- [7] Harris R. B., Ioannou P. G., Scheduling projects with repeating activities, Journal of Construction Engineering and Management 124/1998
- [8] Biruk S., Jaśkowski P., Scheduling Linear Construction Projects with Constraints on Resource Availability, Archives of Civil Engineering 63/2017
- [9] Altuwaim A., El-Rayes K., Optimizing the Scheduling of Repetitive Construction to Minimize Interruption Cost, Journal of Construction Engineering and Management 144/2018
- [10] Arabpour Roghabadi M., Moselhi O., Optimized crew selection for scheduling of repetitive projects, Engineering, Construction and Architectural Management 28/2020
- [11] Bakry I., Moselhi O., Zayed T., Optimized scheduling and buffering of repetitive construction projects under uncertainty. Engineering, Construction and Architectural Management 23/2016
- [12] García-Nieves J. D., Ponz-Tienda J. L., Salcedo-Bernal A., Pellicer E., The Multimode Resource-Constrained Project Scheduling Problem for Repetitive Activities in Construction Projects, Computer-Aided Civil and Infrastructure Engineering 33/2018
- [13] Liu S. S., Wang C. J., Optimizing linear project scheduling with multi-skilled crews, Automation in Construction 24/2012
- [14] Altuwaim A., El-Rayes K., Minimizing duration and crew work interruptions of repetitive construction projects, Automation in Construction 88/2018
- [15] Agrama F. A., Multi-objective genetic optimization for scheduling a multi-storey building. Automation in Construction 44/2014
- [16] Sroka B., Rosłon J., Podolski M., Bożejko W., Burduk A., Wodecki M., Profit optimization for multi-mode repetitive construction project with cash flows using metaheuristics, Archives of Civil and Mechanical Engineering 21:67/2021
- [17] Hoła B., Identification and evaluation of processes in a construction enterprise, Archives of Civil and Mechanical Engineering 15/2015
- [18] Radziszewska-Zielina E., Sroka B., Planning repetitive construction projects considering technological constraints, Open Engineering 8/2018
- [19] Plebankiewicz E., Leśniak A., Karcińska P., Assumptions of a planned number of man-hours verification model for construction works, Scientific Review Engineering and Environmental Sciences 27/2018
- [20] Bakry I., Moselhi O., Zayed T., Optimized acceleration of repetitive construction projects. Automation in Construction 39/2014
- [21] Altuwaim A., El-Rayes K., Multiobjective Optimization Model for Planning Repetitive Construction Projects, Journal of Construction Engineering and Management 147:7/2021
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-786642c3-f77e-44d6-ae14-9c3ff2e6e8a2