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Abstract
Juba City, situated about 457 meters above sea level, features flat terrain near the River Nile and is surrounded by gentle hills. The city has an area of 52 Km2 with a population of 500,000 people. This thesis aims to project the population for the year 2033, design a clean water distribution network system. Key data used includes historical population figures, topographic information, facility layouts, water source flow rates, and cost estimates. The analysis involved the use of Microsoft Excel, Google Earth Pro, QGIS, Civil 3D, EPACAD, and AutoCAD, with the main distribution system design carried out using EPANET 2.2 software. The projected population by 2033 is 669,735 people, with an estimated clean water demand of 2.288 m³/s. Water loss was calculated at 0.343 m³/s. The proposed network is designed as a dead-end system, consisting of 3,783 nodes and a total pipeline length of 218,862 meters. The distribution system uses HDPE PN 16 pipes, specifically 6-inch pipes totaling 127,823.8 meters and 4-inch pipes totaling 91,038.3 meters. The total budget for the project is estimated at Rp. 140.3 billion with 7 months implementation period.
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References
- ] Jenks B, Pecci F, and Stoianov, “Optimal design-for-control of self- cleaning water distribution networks using a convex multi-start algorithm,” Water Research (2023) 231.
- Mehedi M, Masum H, Ahmed N, and Pal S, “WATER DISTRIBUTION SYSTEM MODELING BY USING EPANET 2.0, A CASE STUDY OF CUET,” (2020)
- Jube Gore E, Wu H, and Tang Y, “Assessment Of Drinking Water System: A Case Study Of Juba City South Sudan,” International Journal of Scientific and Research Publications (IJSRP) (2020) 10(10) 300-311.
- Boying H, Ping F, Yateh M, Collins M, Gore E, and Slenkie W, “Sustainable Drinking Water Security Strategic Plan: A Case Study of Juba South Sudan,” International Journal Of Scientific Advances (2021) 2(2).
- Rezagama A, Handayani D, Zaman B, Putra R, “Design Optimization of Water Distribution Suburban Area in Mranggen, Semarang, Indonesia”, Earth and Environmental Science (2020) 448(1).
- EPANET 2.2.0: An EPA and Water Community Collaboration. Available at: https://www.epa.gov/sciencematters/epanet-220-epa-and-water-community-collaboration (Accessed: 17 July 2021). EPA (2020)
References
] Jenks B, Pecci F, and Stoianov, “Optimal design-for-control of self- cleaning water distribution networks using a convex multi-start algorithm,” Water Research (2023) 231.
Mehedi M, Masum H, Ahmed N, and Pal S, “WATER DISTRIBUTION SYSTEM MODELING BY USING EPANET 2.0, A CASE STUDY OF CUET,” (2020)
Jube Gore E, Wu H, and Tang Y, “Assessment Of Drinking Water System: A Case Study Of Juba City South Sudan,” International Journal of Scientific and Research Publications (IJSRP) (2020) 10(10) 300-311.
Boying H, Ping F, Yateh M, Collins M, Gore E, and Slenkie W, “Sustainable Drinking Water Security Strategic Plan: A Case Study of Juba South Sudan,” International Journal Of Scientific Advances (2021) 2(2).
Rezagama A, Handayani D, Zaman B, Putra R, “Design Optimization of Water Distribution Suburban Area in Mranggen, Semarang, Indonesia”, Earth and Environmental Science (2020) 448(1).
EPANET 2.2.0: An EPA and Water Community Collaboration. Available at: https://www.epa.gov/sciencematters/epanet-220-epa-and-water-community-collaboration (Accessed: 17 July 2021). EPA (2020)