RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

Sewer deterioration models are needed to forecast the remaining life expectancy of sewer networks by assessing their conditions. In this study, the serious defect (or condition state 3) occurrence probability, at which sewer rehabilitation program should be implemented, was evaluated using four probability distribution functions such as normal, lognormal, exponential, and Weibull distribution. A sample of 252 km of CCTV-inspected sewer pipe data in city Z was collected in the first place. Then the effective data (284 sewer sections of 8.15 km) with reliable information were extracted and classified into 3 groups considering the sub-catchment area, sewer material, and sewer pipe size. Anderson-Darling test was conducted to select the most fitted probability distribution of sewer defect occurrence as Weibull distribution. The shape parameters (β) and scale parameters (η) of Weibull distribution were estimated from the data set of 3 classified groups, including standard errors, 95% confidence intervals, and log-likelihood values. The plot of probability density function and cumulative distribution function were obtained using the estimated parameter values, which could be used to indicate the quantitative level of risk on occurrence of CS3. It was estimated that sewer data group 1, group 2, and group 3 has CS3 occurrence probability exceeding 50% at 13th-year, 11th-year, and 16th-year after the installation, respectively. For every data groups, the time exceeding the CS3 occurrence probability of 90% was also predicted to be 27th- to 30th-year after the installation.

참고문헌 (Reference)

1 도명식, "신뢰성 개념을 이용한 포장의 평균수명 및 신뢰도 예측" 대한토목학회 30 (30): 497-504, 2010

2 Vanier, D. J., "Why industry needs asset management tools" 15 (15): 35-43, 2001

3 Belmonte, H. M. S., "Weibull-based methodology for condition assessment of cast iron water mains and its application" 31 (31): 370-385, 2008

4 Lancaster, T., "The econometrics analysis of transition data" Cambridge Univ., Press 1990

5 Baur, R., "Selective inspection planning with ageing forecast for sewer types" 46 (46): 389-396, 2002

6 Kuzin, S. A., "Probabilistic approach to the estimation of urban stormwater pollution loads on receiving waters" 2005 : 143-156, 2005

7 Henley, J. E., "Probabilistic Risk Assessment" IEEE Press 1992

8 Rostum, J., "Predictive service-life models for urban water infrastructure management" 594-601, 1999

9 Johnson, V.E., "Ordinal Data Modeling" Springer-Verlag New York 1999

10 Ministry of Environment, "Manual of CCTV Inspection and Judgment Criteria for Sewer Rehabilitation"