Journal of Korean Society of Water and Wastewater (상하수도학회지)

The Korean Society of Water and Wastewater (대한상하수도학회)
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A Study on Feasibility Analysis and Optimum Range Calculation Model by Conversion of Water Supply System

상수도 급수방식 전환의 타당성 분석 및 최적 범위 산정모델 연구

  • Park, Junyeol (Environmental Engineering, University of Seoul) ;
  • Shin, Hwisu (Environmental Engineering, University of Seoul) ;
  • Seo, Jeewon (Environmental Engineering, University of Seoul) ;
  • Kim, Kibum (Environmental Engineering, University of Seoul) ;
  • Koo, Jayong (Environmental Engineering, University of Seoul)
  • 박준열 (서울시립대학교 환경공학과) ;
  • 신휘수 (서울시립대학교 환경공학과) ;
  • 서지원 (서울시립대학교 환경공학과) ;
  • 김기범 (서울시립대학교 환경공학과) ;
  • 구자용 (서울시립대학교 환경공학과)
  • Received : 2017.02.20
  • Accepted : 2017.04.07
  • Published : 2017.04.20
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Abstract

This study concerned the analysis on the efficiency of the conversion of water tank type supply system to direct water supply system to examine the feasibility of the conversion, as well as the calculation of optimal conversion range that enables the supply of safe, high-quality water at stable pressure in accordance with the standards of water supply facility. The results of this research showed that when converting water supply system from water tank type supply system to direct water supply system, more nodal points could be properly converted and more reduction of electricity usage was expected in case water pressure rather than residence time was fixed. This means that higher efficacy can be obtained by fixing water pressure when converting water supply system. However, since the number of the locations that received on-spot inspection was small and the electricity usage measured was not exclusively by water supply facility, it is difficult to judge that such reduction of electricity usage accurately represents reduced electricity usage by water supply facility alone. therefore, after having secured on-spot information about a larger number of locations in apartment complexes that have converted water supply system, and utilizing information about electricity usage exclusively by water supply facility, the proposed method of this research could be applied to accurately deducing expected reduction of electricity usage by water supply facilities of various other apartment complexes. It is also considered possible to deduce an effective operation method of water supply system by finding out an area that shows low pressure or low residual chlorine concentration in the optimal conversion range of water supply, followed by estimating the proper location of pumping station or the proper chlorine dosage at the power purification plant that supply water to the target area.

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References

  1. Alfredo. H-S., Ang.Wilson. H., Tang., (2011), Probability concepts in engineering -Emphasis on Application in Civil and Environmental Engineering-.
  2. Bentley Sustaining Infrastructure, Bentley WaterCAD V8i Korean User's Guide.
  3. Cheung. C. T., Mui. K. W., Wong. L. T., 2013, Energy efficient of elevated water supply tanks for high-rise buildings. Applied Energy, 103, pp.685-691. https://doi.org/10.1016/j.apenergy.2012.10.041
  4. EPA(United States Environmental Protection Agency), EPANET 2 User's Manual
  5. Gomez. E., Cabreraa. E., Balaguera. M. and Soriano. J., (2015), Direct and indirect water supply: an energy assessment, Procedia Engineering 119, 13th Computer Control for Water Industry Conference, CCWI 2015, pp1088-1097.
  6. Jeong. S., (2004), Development of strategic evaluation methodology for performance of water losses management in water distribution system, pp.238.
  7. Kim. K, (2016), A Study on the Development of the Disinfection By-product Prediction Model of the Acvanced Water Treatment in Distribution Pipeline Network, Mater's Thesis, University of Seoul, pp.148.
  8. KWWA(Korea Water and Wastewater works Association), (2014), Water&Tech
  9. Lee. Y., (2006), An Analysis on characteristics of daily and hourly peak factors of small cities, pp.75.
  10. MOE(Ministry of Environment) & KWWA(Korea Water and Wastewater works Association, (2010), Standard for waterworks facilities
  11. MOTIE(the Ministry of Trade Industry and Energy), (2016), Operational provision of efficiency management equipment material
  12. Rossman, L. A., Clark. R. M., and Grayman, W. M., 1994, "Modeling chlorine residual in drinking water distribution system", J. Environ Eng. 120, pp.803-820. https://doi.org/10.1061/(ASCE)0733-9372(1994)120:4(803)