Author:
Baniassadi Farshid,Alvanchi Amin,Mostafavi Ali
Abstract
PurposeSafety and productivity are key concerns in the construction projects. While safety looks to the construction workers need to work in a safe environment, productivity affects the project’s profitability and is of a paramount importance from the project owner’s view. The different perspective to the safety and productivity from these two major players in construction projects poses a potential for the conflict between the two. This problem can be fundamentally addressed by methods concurrently improving project safety and productivity. The paper aims to discuss this issue.Design/methodology/approachTo this aim, a discrete event simulation (DES) based framework applicable was proposed for complex and hazardous operations. The utility of the framework was tested using a case study of an eight-story residential building in the north-east part of Tehran, Iran. The excavation and stabilization operation was identified as the most hazardous and critical operation in this case. The framework could improve safety and productivity of this operation by 38 and 4 percent, respectively.FindingsThis framework is a complement to the conventional construction project safety and productivity planning methods. Its main application is in complex and hazardous construction operations.Originality/valueFor the first time, a comprehensive framework for concurrently improving safety and productivity of an entire project was proposed in this research. DES was used as the main modeling tool in the framework to provide anex-anteevaluation foundation applicable to a wide range of construction projects.
Subject
General Business, Management and Accounting,Building and Construction,Architecture,Civil and Structural Engineering
Reference50 articles.
1. Using simulation to plan tunnel construction;Journal of Construction Engineering and Management,2012
2. Dynamics of working hours in construction;Journal of Construction Engineering and Management,2011
3. Using fuzzy AHP and fuzzy TOPSIS approaches for assessing safety conditions at worksites in construction industry;International Journal of Safety and Security Engineering,2016
4. FLHA/FLRA→ EEJRA,2015
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