Analysis of Clean Water Distribution System in Nuruwe Village, West Kairatu District, Seram West Regency using Epanet Software 2.0

Authors

  • Rudi Serang Author

Keywords:

Water, Hydrolysis, Epanet, Feasibility

Abstract

Water is one of the natural elements that more or less influences every important role in the life of humans and other creatures in this nature which is a basic need for humans so that it becomes the main thing if the clean water sector gets priority in handling and fulfilling it. Water demand is the amount of water needed for household, industrial and other needs. Population Projection is a scientific calculation of population in the future based on assumptions about the components of population growth at a certain level, the results of which will show the characteristics of the population, births, deaths and migration. EPANET is a computer program that provides hydraulic simulations and trends in the quality of water flowing in pipelines. The network itself consists of Pipes, The method of data collection and analysis used in this study was to conduct a survey at the research location to review and see directly the conditions of the research location, then create a piping system that is suitable for the research location, after that calculate the projected population and clean water distribution system in Nuruwe village by using the Epanet 2.0 Software to analyze the feasibility of the piping system based on the number of residents and water needs it can be concluded that the clean water requirement needed by the residents of Nuruwe Village is 2.44 liters/second, with this amount of water demand, a network system distribution model is made piping using Epanet 2.0 software, and the results obtained are Run Successful, which means the distribution of the piping system runs 100%.

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Published

2023-01-31

How to Cite

Serang, R. (2023). Analysis of Clean Water Distribution System in Nuruwe Village, West Kairatu District, Seram West Regency using Epanet Software 2.0. International Journal of Advanced Engineering Research and Science, 10(01). https://i.ihspublishing.com/index.php/ijaers/article/view/321