This research carried out an analysis on input cost and leakage reduction effect by leakage reduction method, focusing on the project for establishing an optimal water pipe network management system in the Taebaek region, which has been executed annually since 2009. Based on the result, optimal cost-benefit analysis models for water distribution network rehabilitation project were developed using DEA(data envelopment analysis) and multiple regression analysis, which have been widely utilized for efficiency analysis in public and other projects. DEA and multiple regression analysis were carried out by applying 4 analytical methods involving different ratios and costs. The result showed that the models involving the analytical methods 2 and 4 were of low significance (which therefore were excluded), and only the models involving the analytical methods 1 and 3 were suitable. From the result it was judged that the leakage management method to be executed with the highest priority for the improvement of revenue water ratio was installation of pressure reduction valve, followed by replacement of water distribution pipe, replacement of water supply pipe, and then leakage detection and repair; and that the execution of leakage management methods in this order would be most economical. In addition, replacement of water meter was also shown to be necessary in case there were a large number of defective water meters.

• 김태곤(환경부 수도정책과) | Taegon Kim (Drinking Water Policy Division, Ministry of Environment)
• 최태호(한국수자원공사 K-water연구원) | Taeho Choi (K-water Research Institute, Korea Water Resources Corporation)
• 김경필(GS건설 글로벌엔지니어링 본부) | Kyoungpil Kim (Global Engineering Center, GS E&C)
• 구자용(서울시립대학교 환경공학과) | Jayong Koo (Department of Environmental Engineering, University of Seoul) Corresponding author