Mathematical modeling and analysis of a solar still with multiple-effect cover cooling

dc.contributor.authorMohamed Mustapha Belhadj
dc.contributor.authorYacine Marif
dc.contributor.authorMoussa Zerrouki
dc.contributor.authorBechki Djamel
dc.contributor.authorHamza Bouguettaia
dc.contributor.authorMohammed Benhammou
dc.date.accessioned2024-06-06T10:09:12Z
dc.date.available2024-06-06T10:09:12Z
dc.date.issued2019-02-24
dc.descriptionIntervention
dc.description.abstractThis paper presents a theoretical study of the thermal performance of a double-sloped basin still coupling with multiple-effect cover cooling. The still was built so that one of its cover sides (the multiple-stage) is tilted to be parallel to sun rays and, therefore, be in the shaded area. Direct solar radiation heated the saline water and evaporated it. A fraction of the resulting vapor condensed on the inner glass cover surface while the rest was condenser to the outer first partition to be condensed there. The distiller was double-slope with a double pass capillary film distiller. Is effective base area was 1m2 and its cover slope was 65° to the horizontal. The results showed that combining a capillary film distiller with basin type solar still caused an improvement in the still performance. The proposed still of two parallel cells with 50-mm gaps is theoretically predicted to produce 11.8 kgm-2 d -1 on a sunny day of daily solar radiation of 42.5 MJ m-2 d -1 on the glass cover.
dc.identifier.citationMohamed Mustapha Belhadj, Yacine Marif, Moussa Zerrouki, Bechki Djamel, Hamza Bouguettaia, Mohammed Benhammou. Mathematical modeling and analysis of a solar still with multiple-effect cover cooling .International Symposium on Technology & Sustainable Industry Development, ISTSID’2019. Faculty Of Technology. University Of Eloued. [Visited in ../../….]. Available from [copy the link here].
dc.identifier.urihttps://dspace.univ-eloued.dz/handle/123456789/33297
dc.language.isoen
dc.publisherUniversty of El-oued جامعة الوادي
dc.subjectSolar
dc.subjectdistillation
dc.subjectcapillary
dc.subjectmodeling
dc.titleMathematical modeling and analysis of a solar still with multiple-effect cover cooling
dc.typeIntervention

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