Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Life-cycle performance enhancement of deteriorating buildings under recurrent seismic hazards
https://orcid.org/0000-0001-9149-2749
Abstract Buildings are susceptible to reduced performance due to deterioration and recurrent extreme events. Hence, a life-cycle sustainability and resilience enhancement approach is proposed herein for reinforced concrete structures under environmental deterioration and recurrent extreme events. The framework consists of five parts: (1) extreme event modeling to characterize the occurrence uncertainty of the recurrent extreme events, (2) deterioration modeling to assess deterioration initiation and propagation during the investigated time, (3) structural modeling to assess structural response given deterioration and natural hazards, (4) life-cycle sustainability and resilience assessment to determine the consequences, downtimes and functionality during the investigated time given mitigation alternatives, and (5) decision-making to select the optimal retrofit alternative given life-cycle sustainability and resilience performance by utilizing utility decision theory and multi-criteria decision making. The proposed framework is illustrated on an intermediate moment resisting reinforced concrete frame structure prone to carbonation-induced deterioration and stochastically recurring seismic hazards. The methodology highlights the importance of considering life-cycle sustainability and resilience and provides a tool to effectively manage structures under deterioration and recurring extreme events.
Highlights Proposed a renewal process-based seismic hazard arrival methodology. Integrated sustainability and resilience in a life cycle. Investigated combined effect of deterioration and recurrent seismic hazards. Considered socioeconomic and environmental consequences and functionality during the investigated time. Provide a decision-making tool by leveraging the utility decision theory and multi-criteria decision-making methods.
Life-cycle performance enhancement of deteriorating buildings under recurrent seismic hazards
https://orcid.org/0000-0001-9149-2749
Abstract Buildings are susceptible to reduced performance due to deterioration and recurrent extreme events. Hence, a life-cycle sustainability and resilience enhancement approach is proposed herein for reinforced concrete structures under environmental deterioration and recurrent extreme events. The framework consists of five parts: (1) extreme event modeling to characterize the occurrence uncertainty of the recurrent extreme events, (2) deterioration modeling to assess deterioration initiation and propagation during the investigated time, (3) structural modeling to assess structural response given deterioration and natural hazards, (4) life-cycle sustainability and resilience assessment to determine the consequences, downtimes and functionality during the investigated time given mitigation alternatives, and (5) decision-making to select the optimal retrofit alternative given life-cycle sustainability and resilience performance by utilizing utility decision theory and multi-criteria decision making. The proposed framework is illustrated on an intermediate moment resisting reinforced concrete frame structure prone to carbonation-induced deterioration and stochastically recurring seismic hazards. The methodology highlights the importance of considering life-cycle sustainability and resilience and provides a tool to effectively manage structures under deterioration and recurring extreme events.
Highlights Proposed a renewal process-based seismic hazard arrival methodology. Integrated sustainability and resilience in a life cycle. Investigated combined effect of deterioration and recurrent seismic hazards. Considered socioeconomic and environmental consequences and functionality during the investigated time. Provide a decision-making tool by leveraging the utility decision theory and multi-criteria decision-making methods.
Life-cycle performance enhancement of deteriorating buildings under recurrent seismic hazards
https://orcid.org/0000-0001-9149-2749
Abstract Buildings are susceptible to reduced performance due to deterioration and recurrent extreme events. Hence, a life-cycle sustainability and resilience enhancement approach is proposed herein for reinforced concrete structures under environmental deterioration and recurrent extreme events. The framework consists of five parts: (1) extreme event modeling to characterize the occurrence uncertainty of the recurrent extreme events, (2) deterioration modeling to assess deterioration initiation and propagation during the investigated time, (3) structural modeling to assess structural response given deterioration and natural hazards, (4) life-cycle sustainability and resilience assessment to determine the consequences, downtimes and functionality during the investigated time given mitigation alternatives, and (5) decision-making to select the optimal retrofit alternative given life-cycle sustainability and resilience performance by utilizing utility decision theory and multi-criteria decision making. The proposed framework is illustrated on an intermediate moment resisting reinforced concrete frame structure prone to carbonation-induced deterioration and stochastically recurring seismic hazards. The methodology highlights the importance of considering life-cycle sustainability and resilience and provides a tool to effectively manage structures under deterioration and recurring extreme events.
Highlights Proposed a renewal process-based seismic hazard arrival methodology. Integrated sustainability and resilience in a life cycle. Investigated combined effect of deterioration and recurrent seismic hazards. Considered socioeconomic and environmental consequences and functionality during the investigated time. Provide a decision-making tool by leveraging the utility decision theory and multi-criteria decision-making methods.
Life-cycle performance enhancement of deteriorating buildings under recurrent seismic hazards
Anwar, Ghazanfar Ali (Autor:in)
11.03.2024
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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