퍼지 다층프로세스를 기반으로한 해중터널의 재해 가능성 평가
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Title
- 퍼지 다층프로세스를 기반으로한 해중터널의 재해 가능성 평가
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Alternative Title
- Hazard Risk Analysis of Submerged Floating Tunnels with Fuzzy AHP
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Author(s)
- 한상훈; 박우선
- KIOST Author(s)
- Park, Woo Sun(박우선)
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Alternative Author(s)
- 한상훈; 박우선
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Publication Year
- 2012-06-18
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Abstract
- The submerged floating tunnel (SFT) is suitable for a connection method of deep and wide waterways. SFT is mainly floated by their buoyancy or supported by the columns. It is similar to floating bridges or immersed tunnels. In the construction and operation of large marine structure, hazard risk analysis is one of important factors. Therefore, this paper investigates the hazard risk indexes and evaluates the risk level in the construction and operation of SFT on the basis of expert survey and Fuzzy analytic hierarchy process. Hazard risk is divided into natural hazard risk (earthquake, typhoon, tsunami, and ice collision) and human factor hazard risk (fire, explosion, traffic accident, ship or submarine collision). As the hazard risk level of SFT is compared with those of bridge, underwater tunnel, and immersed tunnel, the intrinsic risk level of SFT was evaluated.ruction and operation of large marine structure, hazard risk analysis is one of important factors. Therefore, this paper investigates the hazard risk indexes and evaluates the risk level in the construction and operation of SFT on the basis of expert survey and Fuzzy analytic hierarchy process. Hazard risk is divided into natural hazard risk (earthquake, typhoon, tsunami, and ice collision) and human factor hazard risk (fire, explosion, traffic accident, ship or submarine collision). As the hazard risk level of SFT is compared with those of bridge, underwater tunnel, and immersed tunnel, the intrinsic risk level of SFT was evaluated.
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URI
- https://sciwatch.kiost.ac.kr/handle/2020.kiost/27649
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Bibliographic Citation
- ISOPE 2012, pp.676 - 680, 2012
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Publisher
- ISOPE
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Type
- Conference
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Language
- English
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