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- Title
A study on the reconstruction model for minimizing water supply risk in existing water distribution network.
- Authors
Taeho Choi; Dooyong Choi; Kibum Kim; Jayong Koo
- Abstract
This study details the development of a reconstruction model for reducing water supply risk (WSR) in an existing water distribution network (WDN). This development included additional gate valves for reducing the impact of a burst pipe (ImpPB), additional emergency pipes for adjacency block, and pipe replacement to reduce the probability of a burst pipe (ProbPB). The developed model was applied to the study area, giving a block WSR in the reconstructed network of 0.471 m³/year, with a possible input budget of about KRW 140 million (4.5% of the maximum cost for reconstruction); 1,000 KRW = 0.92 USD = 0.69 EUR, 31 Dec 2012. This constituted a decrease of block WSR by 68.7% compared with that of the existing pipe network. The benefit cost for WSR reduction was defined as shown in Scenarios 1–4 at respective ratios of KRW 40,000/m³, KRW 60,000/m³, KRW 80,000/m³, and KRW 100,000/m³. Results show that higher the benefits of reducing the WSR in existing WDNs, more the chance for WSR reduction. On the other hand, if the benefit cost for WSR reduction is low, this indicates that it is not possible to actively reduce WSR. In other words, it is currently difficult to accurately convert the benefits of reduced WSRs. However, if such problems are solved in the future, it should be possible to establish more accurate budgets and plans can for minimizing WSR in existing WDNs
- Subjects
WATER-pipe valves; WATER distribution; WATER supply
- Publication
Desalination & Water Treatment, 2019, Vol 143, p126
- ISSN
1944-3994
- Publication type
Article
- DOI
10.5004/dwt.2019.23561