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    OPTIMIZATION OF RESERVOIR PRESSURE FOR MANAGEMENT OF WATER LOSSES IN DISTRIBUTION NETWORK: CASE OF KIMILILI WATER SUPPLY SCHEME, KENYA

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    MSc Thesis Final - Celsus.pdf (6.399Mb)
    Date
    2019-11
    Author
    Celsus, Murenjekha Shilehwa
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    Abstract
    Potable water supply distribution networks are designed and constructed to convey treated water from the water treatment plant to end users. In developing countries, urban water supplies are mostly intermittent, typically ranging from 2 hours to 4 hours in a day and experiences high physical water losses resulting from frequent pipeline burst and repairs along water distribution pipelines due to high water pressure heads in aged distribution lines. Pressure management as a way of managing water losses was adopted in this study through reservoir water release level control. The study was carried out at Kimilili water supply scheme managed by Nzoia Water Services Company. The scheme is characterized by aged water distribution network that experiences high pressure variations that are attributed to the steep terrain, aged, inadequate and defective system pressure control devices and increased water demand. This has led to; (i) huge water losses (68% Non-Revenue Water) due to pipeline bursts and leakages, (ii) intermittent water supply in the scheme, (iii) compromised quality of water supplied and, (iv) selffinancial unsustainability (82% cost coverage) of the scheme. This study sought to establish the optimal reservoir water release levels for maintaining optimal pipeline network pressures for management of water losses at Kimilili water supply scheme. The study was conducted under guidance of the following specific objectives; To forecast Kimilili water supply scheme water demand up to 2030. To simulate Kimilili water supply distribution network zonal nodal pressures. To establish optimal reservoir water release levels for maintaining minimum allowable zonal nodal pressures. The study targeted all the four categories of all the varying active water consumer connection trends between the years 2008 to 2016. The study also targeted the entire six zonal take off points (nodal) of Kimilili water supply distribution pipeline network. Water demand trend forecast for the years 2017 to 2030 was undertaken using Artificial Neural Network (black box) model while EPANET 2.0 was utilized to hydraulically simulate the nodal point pressures based on the forecasted water demand. The hydraulic simulation incorporated the reservoir at the treatment plant, distribution mains and all the six zonal nodal points where all the six zones connect to the distribution mains. Primary data for the study was collected through field observations using pressure data loggers, a clamp on ultrasonic flow meter and GPS handsets while secondary data was obtained through document review. The study established that; (i) Water demand for Kimilili water supply was increasing with time and the general relationship between time and water demand was defined by a sixth order polynomial function (y = 9e-0x6-1e-05x5+0.0005x4- 0.0115x3+0.1178x2+0.1384x+100.48). (ii) System water losses decreased with increase in water demand and the general relationship between Kimilili water supply periodic system water demand and system water losses is an exponential function given as (y = 256394e- 7.296x), while the relationship between periodic system water demand and percentage system water losses is a polynomial function of order two defined by (y=1.8503x2 – 21.882x + 88.808). (iii) Pressure management through optimization of reservoir water release levels for Kimilili Water Supply Scheme may be utilized up to the year 2026, beyond which it might be practically impossible with the current existing infrastructure. The study recommends the water utility to practice both water demand management and system pressure management by utilizing the findings of the study.
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    http://r-library.mmust.ac.ke/123456789/1329
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    • School of Engineering and Built Environment [17]

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