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W2936004947 abstract "Abstract The present study describes the effect of the surface cooling and thickness on the performance of the high temperature standalone tubular solar still (HTS-TSS). TSS is integrated with a parabolic concentrator solar tracking system (PCST). The test was performed under the climatic conditions of Hail city (27.64°N, 41.75°E) in Saudi Arabia. Results showed that reducing TSS tube thickness 40% enhances water productivity and efficiency by 21% and 13.35% respectively and lowers the cost of water production by 37.5%. Unlike conventional basin solar stills, results showed a negative impact on the HTS-TSS performance under tube surface cooling. Two different techniques of cooling were used. First technique is to spray cooling water over the whole tube surface at a rate of 10 ml every 30 min which reduces TSS productivity and efficiency by 10% and 7.79% respectively. In the second technique, cooling water flows in the gap between two concentric tubes with a rate of 40 ml/min which also reduces the productivity and the efficiency by 43.8% and 42.63% respectively. Cooling tube surface is not recommended for standalone TSS systems. Tube dimensions and properties are key design elements of TSS which needs more intensive investigations." @default.
W2936004947 created "2019-04-25" @default.
W2936004947 creator A5063308034 @default.
W2936004947 date "2019-06-01" @default.
W2936004947 modified "2023-09-29" @default.
W2936004947 title "Effect of surface cooling and tube thickness on the performance of a high temperature standalone tubular solar still" @default.
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W2936004947 doi "https://doi.org/10.1016/j.applthermaleng.2019.04.068" @default.
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