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PLANNING AND HYDRAULIC OPTIMISATION OF AN URBAN WATER SUPPLY SYSTEM IN A RAPIDLY GROWING CITY: A CASE STUDY APPROACH

AUTHORS:
Pankaj Patil
Mentor
Dr. Ashok B. More , Dr. Rajvardhan Patil
Affiliation
Civil Engineering Department, D Y Patil College of Engineering
DOI: 10.55041/ijsmt.v2i5.186
CC BY 4.0 License:
This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Abstract

Rapid urbanisation, ageing assets, limited monitoring, and high physical and commercial losses are common causes of underperformance in water distribution systems (WDS) across developing cities. This paper presents a structured planning and hydraulic optimisation approach for an urban water supply system serving a rapidly growing service area. The methodology integrates (i) population projection and demand assessment, (ii) existing system performance assessment (sources, storage, transmission, distribution and losses), and (iii) hydraulic modelling and intervention testing using a calibrated network model. The optimisation package focuses on pressure zoning, district metered areas (DMAs), bulk and customer metering, selective pipe replacement/rehabilitation, and operational storage balancing. In the case study, the network comprises approximately 607 km of pipelines with functional storage of approximately 16,107 m³, and unaccounted- for water reported at around 70%, indicating severe inefficiencies and a strong need for network systemisation and active loss management.

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PUBLICATION DETAILS
Review Type:
Double-Blind Peer Review
License:
CC BY-NC 4.0
Volume/Issue:
Volume 02, Issue 05
Review Rounds:
2
Article Type:
Research Article
Publication Date:
May 12 2026
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Patil, P. (2026). Planning and Hydraulic Optimisation of an Urban Water Supply System in a Rapidly Growing City: A Case Study Approach. International Journal of Science, Strategic Management and Technology, 02(05). https://doi.org/10.55041/ijsmt.v2i5.186

Patil, Pankaj. "Planning and Hydraulic Optimisation of an Urban Water Supply System in a Rapidly Growing City: A Case Study Approach." International Journal of Science, Strategic Management and Technology, vol. 02, no. 05, 2026, pp. . doi:https://doi.org/10.55041/ijsmt.v2i5.186.

Patil, Pankaj. "Planning and Hydraulic Optimisation of an Urban Water Supply System in a Rapidly Growing City: A Case Study Approach." International Journal of Science, Strategic Management and Technology 02, no. 05 (2026). https://doi.org/https://doi.org/10.55041/ijsmt.v2i5.186.

References
1.Todini, E., 2000. Looped water distribution networks design using a resilience index based heuristic approach. Urban Water 2(2), 115–122. https://doi.org/10.1016/S1462-0758(00)00049-2

2.Greco, R., Di Nardo, , Santonastaso, G., 2012. Resilience and entropy as indices of robustness of water distribution networks. Journal of Hydroinformatics 14(3), 761–771. https://doi.org/10.2166/hydro.2012.037

3.Liu, H., Savić, D.A., Kapelan, Z., Zhao, M., Yuan, Y., Zhao, H., 2014. A diameter-sensitive flow entropy method for reliability consideration in water distribution system design. Water Resources Research 50(7), 5597–5610. https://doi.org/10.1002/2013WR014882

4.Santonastaso, G.F., Di Nardo, A., Di Natale, M., Giudicianni, C., Greco, R., 2018. Scaling-laws of flow entropy with topological metrics of water distribution networks. Entropy 20(2), 95. https://doi.org/10.3390/e20020095

5.Carneiro, J., Loureiro, D., Covas, D., 2023. Exploratory analysis of surrogate metrics to assess the resilience of water distribution networks. Water Resources Research 59, e2022WR034289. https://doi.org/10.1029/2022WR034289

6.Rokstad, E.G., Makropoulos, C., Rokstad, M.M., 2023. Resilience assessment of water distribution networks exposed to substance intrusion. Urban Water Journal 20(9), 1110–1122. https://doi.org/10.1080/1573062X.2023.2237944

7.Bui, X.K., Marlim, M.S., Kang, D., 2021. Optimal design of district metered areas in a water distribution network using coupled self-organizing map and community structure algorithm. Water 13(6), 836. https://doi.org/10.3390/w13060836

8.Bui, X.K., Marlim, M.S., Kang, D., 2020. Water network partitioning into district metered areas: a state-of-the-art review. Water 12(4), 1002. https://doi.org/10.3390/w12041002

9.Zhang, X., Zhou, X., Yu, H., Shao, Y., Ying, B., Yu, T., 2025. Optimal design of district metered areas based on multiple hydraulic performance indicators for water distribution   WaterSupply  25(9),   1310–1328. https://doi.org/10.2166/ws.2025.077

10.Sharma, A.N., Dongre, S.R., Gupta, R., 2023. Many-objective optimisation tool for the design of district metered areas in pumped water distribution networks. Water Supply 23(9), 3789–3804. https://doi.org/10.2166/ws.2023.232
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This article has undergone plagiarism screening and double-blind peer review. Editorial policies have been followed. Authors retain copyright under CC BY-NC 4.0 license. The research complies with ethical standards and institutional guidelines.
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