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A platform for research: civil engineering, architecture and urbanism
Probabilistic life-cycle cost-benefit analysis of portfolios of buildings under flood hazard
HighlightsProbabilistic cost-benefit analysis of flood mitigation strategies was performed.Performance-based engineering was incorporated within life-cycle assessment.Uncertainties were incorporated within the assessment process at a large scale.Correlation has a paramount effect on the dispersion of life-cycle loss.
AbstractNowadays, the number of residential buildings in flood prone zones is increasing significantly. Therefore, for these buildings, it is of vital importance to apply hazard risk mitigation strategies. In this paper, probabilistic cost-benefit analysis of flood risk mitigation strategies for portfolios of residential buildings is performed in a life-cycle context. Additionally, an efficient methodology is proposed to aid decision-makers on whether or not to retrofit portfolios of structures considering both expected and standard deviation of life-cycle cost. The vulnerability model of buildings under flood hazard is introduced considering serviceability and ultimate limit states. Probabilistic cost-benefit analysis is performed by comparing the effectiveness of different retrofit actions. Additionally, uncertainty and correlation effects are considered in the probabilistic loss and cost-benefit analysis procedures. The proposed approach is applied to a portfolio of residential buildings located in Florida to illustrate its capability and application. However, the proposed approach is general and can be applied to buildings located in other regions.
Probabilistic life-cycle cost-benefit analysis of portfolios of buildings under flood hazard
HighlightsProbabilistic cost-benefit analysis of flood mitigation strategies was performed.Performance-based engineering was incorporated within life-cycle assessment.Uncertainties were incorporated within the assessment process at a large scale.Correlation has a paramount effect on the dispersion of life-cycle loss.
AbstractNowadays, the number of residential buildings in flood prone zones is increasing significantly. Therefore, for these buildings, it is of vital importance to apply hazard risk mitigation strategies. In this paper, probabilistic cost-benefit analysis of flood risk mitigation strategies for portfolios of residential buildings is performed in a life-cycle context. Additionally, an efficient methodology is proposed to aid decision-makers on whether or not to retrofit portfolios of structures considering both expected and standard deviation of life-cycle cost. The vulnerability model of buildings under flood hazard is introduced considering serviceability and ultimate limit states. Probabilistic cost-benefit analysis is performed by comparing the effectiveness of different retrofit actions. Additionally, uncertainty and correlation effects are considered in the probabilistic loss and cost-benefit analysis procedures. The proposed approach is applied to a portfolio of residential buildings located in Florida to illustrate its capability and application. However, the proposed approach is general and can be applied to buildings located in other regions.
Probabilistic life-cycle cost-benefit analysis of portfolios of buildings under flood hazard
Dong, You (author) / Frangopol, Dan M. (author)
Engineering Structures ; 142 ; 290-299
2017-03-20
10 pages
Article (Journal)
Electronic Resource
English
| DataCite | 2020
| Fraunhofer Publica | 2020