2005
DOI: 10.1016/j.solener.2004.10.005
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A simple high efficiency solar water purification system

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Cited by 42 publications
(15 citation statements)
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“…As the water circulating within the system is Simulations revealed that the system is potentially able of a maximum daily productivity ranging between 40 and 102 kg per m 2 of solar collector, depending on the location. The tests of a density driven system with an internal convection loop proposed by Duff et al [6] confirmed an even higher result-up to 200 kg/m 2 of clean water were reported in one day. Table 3 collects synthetic results obtained for each location; the integral values of clean water production are reported in row number 4.…”
Section: Results-exergy Analysissupporting
confidence: 63%
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“…As the water circulating within the system is Simulations revealed that the system is potentially able of a maximum daily productivity ranging between 40 and 102 kg per m 2 of solar collector, depending on the location. The tests of a density driven system with an internal convection loop proposed by Duff et al [6] confirmed an even higher result-up to 200 kg/m 2 of clean water were reported in one day. Table 3 collects synthetic results obtained for each location; the integral values of clean water production are reported in row number 4.…”
Section: Results-exergy Analysissupporting
confidence: 63%
“…Pasteurized water will then flow over the top of the holding pipe due to its volume increase induced by the density change. The initial reference water density conditions (circuit filling) are defined for 20 • C. The variation of volume in spill-over conditions can be obtained applying set-point conditions to Equation (6):…”
Section: Sizing the Natural Circulation Pasteurisation Systemmentioning
confidence: 99%
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“…Previous simulations [21,22] have shown that although solar stills have an advantage with chemically contaminated water and salt water, solar water pasteurization (SWP) is more efficient and less costly for water disinfection. Many types of SWP systems have been developed [23,24], including simple systems with reflectors [25,26], systems based on density difference flow principles [27], parabolic trough concentrator systems [28,29], and continuous flow systems, which are the focus of this study [30][31][32][33]. Continuous flow systems have been shown to be effective at sterilizing water [34], and a kiosk system can be constructed for US$2000 [35].…”
Section: Introductionmentioning
confidence: 99%