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• W1971775910 abstract "Abstract In the production of water from the atmosphere by absorption with subsequent recovery in a solar still. it has been suggested that the absorption tower could be a simple vertical plane, such as a sheet of plywood, over which the absorbent could spread as a thin layer for contact with the air. When an actual attempt was made to produce the thin liquid layer with the suggested equipment it was found that severe channelling occurred. After considerable trial and error attempts, it was found that the channelling could be controlled by stretching a suitable cloth over the wooden surface. It was found that, with the cloth cover, the plywood could be replaced by metals and plastics. The member over which the cloth was stretched came to be called the back-support and the cloth member came to be called the holdup-blanket. The assembly of holdup-blanket and back-support was called the liquid-distributor. The object of this paper is to find the equation which predicts the liquid holdup (i.e. quantity of liquid retained per unit area of liquid-distributor) as a function of liquid flow rates, of liquid properties and of liquid-distributor properties. Dimensional analysis was employed to formulate the general model for the holdup equation. Experimental liquid holdup measurements were obtained for various parameters. Least squares technique was employed on experimental data to establish numerical values of the constants in the equation. The correlation coefficient between the observed holdup and the corresponding calculated holdup is R = 0·944." @default.
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• W1971775910 date "1968-12-01" @default.
• W1971775910 modified "2023-09-28" @default.
• W1971775910 title "Prediction of liquid holdup on an absorption tower for the production of water from the atmosphere with subsequent recovery in a solar still" @default.
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• W1971775910 doi "https://doi.org/10.1016/0038-092x(68)90002-9" @default.
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