Experimental study on optimized using activated agricultural wastes at hemispherical solar still for different types of water

The subsequent work aims to improve freshwater production and reduce the cost of generated water with little energy expenditure. Thermo-economic performance, hourly and daily production were evaluated by the experimental study on a hemispherical solar still in several configurations. The two floatin...

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Bibliographic Details
Published in:Process safety and environmental protection 2023-09, Vol.177, p.246-257
Main Authors: Elsawy, Ibrahim M., Hamoda, Ahmed, Sharshir, Swellam W., Khalil, Ahmed
Format: Article
Language:English
Subjects:
Activated agricultural waste
Charcoal
Corncobs
Hemispherical solar still
Productivity
Thermal efficiency
Water price
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Summary:The subsequent work aims to improve freshwater production and reduce the cost of generated water with little energy expenditure. Thermo-economic performance, hourly and daily production were evaluated by the experimental study on a hemispherical solar still in several configurations. The two floating agricultural waste materials utilized in the experiment were charcoal derived from guava tree wood (CHL) and carbonized corncobs (CCC). To enhance photothermal properties of the utilized primary materials, both have undergone physical and chemical activation by HCL or NaOH under specific conditions. In addition, the experiment was conducted using both seawater and lake water. Each modified distiller's performance was compared to that of a conventional unit in terms of thermal efficiency, exergy efficiency, daily output, and cost of freshwater in the climate of Kafrelsheikh, Egypt (31.09679°N, 30.94945°E) from 9:00 A.M. to 5:00 P.M. Therefore, this study aims to enhance the photothermal properties of charcoal and corn cobs by chemical and physical activation, which lead to enhance the efficiency of the hemispherical solar still by using this modified agricultural waste in its base compared to the traditional way. The daily productivity, thermal, and exergy efficiencies for H.CCC.LW were 4455 mL/m2,41.19%, and 3.85% showing improvement compared to a conventional hemispherical solar still by 41.2%, 40.72%, and 59.09%, respectively. At approximately 0.014 $/L (a savings of 26.70%), H.CCC.LW was shown to be the most cost-effective source of freshwater. [Display omitted] •The performance of hemispherical solar stills with activated agricultural were investigated.•Two different degrees of salinity of water, including seawater and lake water, were investigated through the HSS.•The freshwater yield of HSS using H.CCC.LW was improved by 41.2%.•The thermal performance improvement of H.CCC.LW reached 40.72% (energy) and 59.09% (exergy).•The freshwater price was reduced by 26.70% using H.CCC.LW.
ISSN:0957-5820
1744-3598
DOI:10.1016/j.psep.2023.07.002