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다국어 초록 (Multilingual Abstract)

In this study, seismic fragility analysis are carried out for the water supply facilities. To consider the uncertainty of ground characteristics, the variability of soil in several cases is considered based on RSM and the winkler Foundation method is adopted to model the ground. Limit state of water supply facilities defined as two steps.: the collapse prevention level and the serviceability level. As an input ground motion for evaluating seismic fragilities, foreign surveyed real earthquakes and artificial earthquakes which can be generated in the Korean peninsula are used. The destruction ability according to peak ground acceleration of an earthquake for the water supply facility is evaluated in this paper. From the analysis results, the probability of failure of the ductile iron pipe and wrapped steel pipe under real earthquakes have shown as upper than the Korean artificial earthquakes. It could evaluate the damage of water supply facilities to an earthquake and could be applied as basic data for seismic design of water supply facilities.

참고문헌 (Reference)

1 이도형, "매설가스배관의 지진 취약도 해석" 한국지진공학회 14 (14): 65-76, 2010

2 곽동엽, "新 확률론적 지진분석 및 지진계수 개발 Part Ⅱ: 확률론적 지진계수 도출" 한국지반환경공학회 10 (10): 111-115, 2009

3 Elnashai, A.S., "ZeusNL-Aprogram for inelastic dynamic analysis of structures" MAE Center, University of Illinois at Urbana 2001

4 Ministry of Environment, "Waterworks Standards"

5 Ministry of Environment, "Water corporation Standard Specification"

6 Ministry of Land, Transport and Maritime Affairs, "Utility-Pipe Conduit design standard"

7 Shinozuka, M., "Statistical analysis of fragilit curve" 126 (126): 1224-1231, 2000

8 Shinozuka, M., "Some aspects of seismic risk analysis of underground lifeline systems" 101 : 31-43, 1979

9 Seoul, "Soil Survey Manual"

10 Mashaly, A., "Seismic risk analysis of buried Pipelines" 115 (115): 232-252, 1989

1 이도형, "매설가스배관의 지진 취약도 해석" 한국지진공학회 14 (14): 65-76, 2010

2 곽동엽, "新 확률론적 지진분석 및 지진계수 개발 Part Ⅱ: 확률론적 지진계수 도출" 한국지반환경공학회 10 (10): 111-115, 2009

3 Elnashai, A.S., "ZeusNL-Aprogram for inelastic dynamic analysis of structures" MAE Center, University of Illinois at Urbana 2001

4 Ministry of Environment, "Waterworks Standards"

5 Ministry of Environment, "Water corporation Standard Specification"

6 Ministry of Land, Transport and Maritime Affairs, "Utility-Pipe Conduit design standard"

7 Shinozuka, M., "Statistical analysis of fragilit curve" 126 (126): 1224-1231, 2000

8 Shinozuka, M., "Some aspects of seismic risk analysis of underground lifeline systems" 101 : 31-43, 1979

9 Seoul, "Soil Survey Manual"

10 Mashaly, A., "Seismic risk analysis of buried Pipelines" 115 (115): 232-252, 1989

11 Kennedy, R.P., "Seismic Fragilities for Nuclear Power Plant Risk Studies" 79 (79): 47-68, 1984

12 American Lifelines Alliance, "Guideline for the design of buried steel pipe"

13 Hwang H, "Generation of hazard-consistent fragility curves for Seismic loss Estimation studies" 1994

14 Kim, D. K., "Dynamics of structure" Goomibook 579-, 2005

15 Song, J. G., "Development of Seismic Fragility Functions for Bridge Structures in Korea" National Disaster Management Institute 2007

16 Kim, S. H., "Development of Bridges Retrofitted by Column Jacketing" 19 (19): 105-112, 2004

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