Abstract
Abstract: Two-thirds of the worldwide populace (four billion people)stay under situations of excessive water shortage. In many regions, means for water are being run down quicker than they may be renewed. But even today at any given time, the surroundings carries 3400 trillion tons of water vapor, which could be sufficient to cowl the whole Earth in one inch of water.In order to take advantage of this, an Atmospheric Water Generator (AWG) that is a tool that could convert atmospheric moisture directly into usable or even drinkable water has been advanced. This project focuses on enhancing the efficacy of a present AWG through 20%. The layout will allow extraction of 1.2 liters of water per hour with low energy consumption. The parameters and dimensions for the project have been acquired through the existing setup and the layout of improved setup was obtained through rigorous studies and iterative theoretical calculations. The evaluation of AWG focuses on the flow and thermal conditions that it is subjected to and was executed on ANSYS Fluent.
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