Weather-Related Construction Delays in a Changing Climate: A Systematic State-of-the-Art Review

Author:

Schuldt Steven J.ORCID,Nicholson Mathew R.,Adams Yaquarri A.,Delorit Justin D.

Abstract

Adverse weather delays forty-five percent of construction projects worldwide, costing project owners and contractors billions of dollars in additional expenses and lost revenue each year. Additionally, changes in climate are expected to increase the frequency and intensity of weather conditions that cause these construction delays. Researchers have investigated the effect of weather on several aspects of construction. Still, no previous study comprehensively (1) identifies and quantifies the risks weather imposes on construction projects, (2) categorizes modeling and simulation approaches developed, and (3) summarizes mitigation strategies and adaptation techniques to provide best management practices for the construction industry. This paper accomplishes these goals through a systematic state-of-the-art review of 3207 articles published between 1972 and October 2020. This review identified extreme temperatures, precipitation, and high winds as the most impactful weather conditions on construction. Despite the prevalence of climate-focused delay studies, existing research fails to account for future climate in the modeling and identification of delay mitigation strategies. Accordingly, planners and project managers can use this research to identify weather-vulnerable activities, account for changing climate in projects, and build administrative or organizational capacity to assist in mitigating weather delays in construction. The cumulative contribution of this review will enable sustainable construction scheduling that is robust to a changing climate.

Publisher

MDPI AG

Subject

Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development

Reference135 articles.

1. Making the Construction Industry Resilient to Extreme Weather: Lessons from Construction in Hot Weather Conditions

2. A Fuzzy Modeling Approach to Weather Delays Analysis in Construction Projects;Sebt;Int. J. Civ. Eng.,2007

3. MULTIOBJECTIVE OPTIMIZATION MODEL FOR SCHEDULING OF CONSTRUCTION PROJECTS UNDER EXTREME WEATHER

4. Donald McDonald Weather Delays and Impacts;Aace-Cost Eng.,2000

5. Weather-Related Delays on Government Contracts;Finke;Aace Int. Trans.,1990

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