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dc.contributor.advisorGryzagoridis, J
dc.contributor.advisorKanyarusoke, KE
dc.contributor.authorKoura Mbadinga, Pauline Joella
dc.date.accessioned2018-03-23T09:56:35Z
dc.date.available2018-03-23T09:56:35Z
dc.date.issued2015
dc.identifier.urihttp://hdl.handle.net/20.500.11838/2612
dc.descriptionThesis (MTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2015.en_US
dc.description.abstractAccess to adequate quantities of clean drinking water has become a serious issue on the worldwide level. This is particularly true in arid and rural areas where for the majority of people water is a limited and a vulnerable resource. These water sources which are often highly contaminated are potentially the cause for several diseases (waterborne diseases) and ultimately death especially in infants. Due to poverty and sometimes to the remote conditions of their regions, the population is unable to afford adequate water purification technologies, since they are relatively expensive and energy intensive. It is therefore vital to investigate appropriate water purification technology that people can afford or construct, operate and maintain themselves. A promising technology is solar distillation for the supply of drinking water on a small-scale level. It has proved to be a unique purification method as it can purify almost any type of water by using the high solar energy potential of the affected regions. The most basic form of solar distillation is the use of a single basin single slope solar still. However the downside of this technology is that it presents a low efficiency and productivity. To try to tackle this problem, many studies have been carried out to enhance productivity, effectiveness and efficiency of single-basin solar stills. In this present study, a solar distillation unit was designed, fabricated and experimentally tested. Its performance in terms of distillate output and energy efficiency was analysed under Cape Town conditions and compared to similar stills that have been reported in the literature. The main configuration of the solar still is a double glazed single basin solar still coupled to an external condenser. The study indicated that the performance of the solar still unit can be enhanced by increasing the evaporation rate which is a combined effect of solar radiation, ambient temperature, and the system components temperature. It was concluded that the applied techniques such as the external condenser, double glazing, good insulation and low level of water are effective. The unit was found to have an efficiency ranging between 21 and 29% over the test period and a mean distillate yield of about 2.5 litres per square meter was achieved per day.en_US
dc.language.isoenen_US
dc.publisherCape Peninsula University of Technologyen_US
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/3.0/za/
dc.subjectSolar energyen_US
dc.subjectRenewablbe energy sourcesen_US
dc.subjectWater -- Purificationen_US
dc.subjectWater -- Purification -- Technological innovationsen_US
dc.subjectSolar stillsen_US
dc.subjectRural developmenten_US
dc.titleA solar water purification system for rural areasen_US
dc.typeThesisen_US


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