أنا  سونيا زهير أسحق

This work presents new results from controlled experiments using well-designed and constructed single-inclination solar stills. The aim of these experiments is to explore methods for enhancing still performance by studying the individual effects of three types of methods. Specifically, the experiments investigate the actual effects of still basin water depth, the use of a sensible heat storage medium, and the treatment of the inner glass surface with waxy substances. The main distinction in this work is the use of solar stills that can achieve thermal efficiencies in excess of 40% under favourable weather conditions without any modification. This high efficiency level allows for meaningful analysis of the impact of modifications on still performance. The results indicate that still yield, productivity, and thermal efficiency decrease significantly when the water depth in the basin exceeds 6 cm. additionally, introducing black gravel in excess of a 2% gravel to water mass ratio in the still basin does not produce a significant change in still thermal efficiency. Treatment of the still inner glass surface with two types of waxy materials resulted in large drop in still performance.

This work presents new results from controlled experiments using well-designed and constructed single-inclination solar stills. The aim of these experiments is to explore methods for enhancing still performance by studying the individual effects of three types of methods. Specifically, the experiments investigate the actual effects of still basin water depth, the use of a sensible heat storage medium, and the treatment of the inner glass surface with waxy substances. The main distinction in this work is the use of solar stills that can achieve thermal efficiencies in excess of 40% under favourable weather conditions without any modification. This high efficiency level allows for meaningful analysis of the impact of modifications on still performance. The results indicate that still yield, productivity, and thermal efficiency decrease significantly when the water depth in the basin exceeds 6 cm. additionally, introducing black gravel in excess of a 2% gravel to water mass ratio in the still basin does not produce a significant change in still thermal efficiency. Treatment of the still inner glass surface with two types of waxy materials resulted in large drop in still performance.

This study presents an empirical model based on experimental results of a simple single-slope conventional solar still’s daily yield of distilled water, productivity, and thermal efficiency. The model assumes that the still efficiency can be factored as a function of three independent weather parameters beside solar radiation: atmospheric temperature, wind speed, and dew point. The effect of the latter parameter has seldom been studied. Correlation analysis showed that relative humidity and atmospheric pressure are dependent on those three, and their effects on still performance are only signatures of the three independent weather variables. Hence, they are not included in the modeling. The model predicts that temperature, dew point temperature, and wind speed have a percentage effect of 73.5%, 12.2%, and 14.3%, respectively, on still efficiency. The experiment was conducted over a seven-week period from last week in August to end of second week in October 2022 in Zakho city, Kurdistan, Iraq. This period was characterized by variable weather parameters such as solar radiation, wind speed, atmospheric temperature, atmospheric pressure, dew point, and relative humidity. These variable weather conditions resulted in a wide range of variable daily yields and thermal efficiency values, ranging from 1,200–4,250 mL/d and 26%–45%, respectively. The analysis suggests that the average daily still thermal efficiency is linearly proportional to the incoming total daily solar radiation, with daily deviations from this linear average caused by other variable weather parameters.

Analysis of available precipitations data for Zakho area supports the argument that global warming has affected this region. Results shows that monthly and yearly rain fall have been decreasing systematically since the thirties of the last century until now. Based on linear correlation model, some future estimations of the reduction in precipitation as related to the global atmospheric carbon dioxide concentrations are made.