Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/4883
Title: Assessing the feasibility and effectiveness of rooftop rainwater harvesting in Winnie Mandela Madikizela Local Municipality
Authors: Nakin, Abongile Ongezwa 
Keywords: Surface water;Rooftop Rainwater Harvesting;Wwater supply backlog;Sustainability;Potable water
Issue Date: May-2023
Abstract: 
South Africa's primary source of water is surface water. The potability of this water is
doubtful especially in rural areas. Evaluation of rainwater quality from various roof
materials is crucial. Additionally, there is a need to evaluate the quantity and the
economic viability of Rooftop Rainwater Harvesting (RRWH). Winnie Madikizela
Mandela Local Municipality (WMMLM) of Nomlacu currently has 73.6% municipal
water supply backlog. With the current challenges, it is important not only to explore
ways to save water but also to generate own sources of water. This makes RRWH
systems as a viable water resource, an option for alleviating water scarcity. The study
aims to assess the feasibility and effectiveness of RRWH for domestic use in WMMLM.
The target is to determine the potential of rainwater harvesting as a potable water
supply and conservation alternative. Hydrological data was obtained from the Weather
SA to facilitate the calculation of the quantity of rainwater that can be harvested per
household. Moreover, catchment areas were obtained through QGIS to determine size
and materials of the roof types. Thus, to analyse the impact of roof materials on water
quality for human consumption and irrigation.
According to the results obtained in this study, Turbidity and E. coli produced noncompliant results of (0.8 – 2.8 NTU) and (0 - >2420 MPN /100mL) respectively.
Although within limits, Aluminium, Colour, and Zinc concentrations present higher
values on zinc metal roof compared to tiled roofing material. This is due to the high
radiation and good heat conducting capacity of the metal. Results also showed higher
pH levels on tiled roofs (7.05 – 7.39) compared to zinc roofs (6.27 – 7.19), which is in
line with the nature of concrete. The most significant and immediate threat to health
that roof collected water poses is bacterial contamination. Therefore, it is important to
regularly clean the system, use disinfection solutions like chlorine tablets and boiling
water before consumption.
Overall, Nomlacu area receives relatively high amounts of rainfall which is greater than
country’s annual rainfall. The study showed that RRWH can meet the annual demand
of rainwater and have an overflow of roughly 7211L/year which is equivalent to an
approximate potential annual harvest of 124% when utilized to its optimal potential
and at worst case scenario can alleviate the pressure from the municipal water supply
system by at least 81%. Results showed that optimal rainwater harvesting can be achieved by using more than two storage tanks per household. This then makes it
possible for the system to alleviate pressure from the municipal water supply. On the
economically aspect, installing a RRWH system is financially feasible, it would spare
the municipalities approximately 48.8% of the municipal water supply spend to supply
water to the municipality should this project be a government initiative.
Description: 
A thesis submitted in fulfillment of the academic requirements for the degree of Master of Engineering: Civil Engineering, Durban University of Technology, Durban, South Africa, 2022.
URI: https://hdl.handle.net/10321/4883
DOI: https://doi.org/10.51415/10321/4883
Appears in Collections:Theses and dissertations (Engineering and Built Environment)

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