Yield–reliability analysis for rural domestic water supply from combined rainwater harvesting and run-of-river abstraction |
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| Authors: | J Ndiritu J O Odiyo R Makungo C Ntuli B Mwaka |
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| Institution: | 1. School of Civil and Environmental Engineering, University of the Witwatersrand, P/BagX3 , Wits, 2050, South Africa john.ndiritu@wits.ac.za;3. Department of Hydrology and Water Resources , University of Venda, P/BagX5050 , Thohoyandou, 0950, South Africa;4. Department of Water Affairs, P/BagX313 , Pretoria, 0001, South Africa |
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| Abstract: | Abstract In many rural areas, reticulated water supply from large water resources schemes does not exist and many households obtain water from groundwater (GW), rainwater harvesting (RWH), run-of-river (ROR) flow, or combinations of these. While comprehensive yield–reliability analysis for large water resource systems is the norm, typical rural water supply analysis unrealistically aggregates data into monthly or annual time steps and does not incorporate reliability. A daily time-step simulation of household supply and frequency analysis of the number of days supplied in each year is used herein to: (a) demonstrate a realistic approach of yield–reliability analysis for RWH, ROR and combined RWH and ROR supply; and (b) show how combined utilization of the two can lead to improved supply. Integration of RWH and ROR supply has been found to improve yield and reliability substantially. The limitations of using the simpler mass curve analysis and the effect of applying a monthly time step are demonstrated. Citation Ndiritu, J., Odiyo, J. O., Makungo, R., Ntuli, C. & Mwaka, B. (2011) Yield–reliability analysis for rural domestic water supply from combined rainwater harvesting and run-of-river abstraction. Hydrol. Sci. J. 56(2), 238–248. |
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| Keywords: | yield–reliability analysis rainwater harvesting run-of-river rural water supply |
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