Enhancing the hemispherical solar distiller performance using internal reflectors and El Oued sand grains as energy storage mediums

Enhancing the hemispherical solar distiller performance using internal reflectors and El Oued sand grains as energy storage mediums

This paper presents a comprehensive experimental study of the some effective modifications which aim to improve the cumulative productivity of solar distillers, in order to reach the best modification that achieves the highest cumulative productivity of hemispherical distillates. The experimentation...

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Bibliographic Details
Published in:Environmental science and pollution research international Vol. 29; no. 15; pp. 21451 - 21464
Main Authors: Attia, Mohammed El Hadi, Kabeel, Abd Elnaby, Abdelgaied, Mohamed, Shmouty, Ahmed Refat
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-03-2022
Springer Nature B.V
Subjects:
Aluminum
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Condensates
Distillates
Distillation equipment
Earth and Environmental Science
Ecotoxicology
Energy storage
Environment
Environmental Chemistry
Environmental Health
Environmental science
Exergy
Grains
Metal foils
Productivity
Reflectors
Research Article
Sand
Solar energy
Thermodynamic efficiency
Waste Water Technology
Water Management
Water Pollution Control
El-Oued sand grains
Hemispherical solar distillers
Performance improvement
Internal reflectors
Energy storage
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Summary:This paper presents a comprehensive experimental study of the some effective modifications which aim to improve the cumulative productivity of solar distillers, in order to reach the best modification that achieves the highest cumulative productivity of hemispherical distillates. The experimentations were carried on the hemispherical distillers which are characterized by a large area of receiving and condensation. To obtain the best modification that achieves the highest cumulative productivity, the present comprehensive studies were conducted on two experimental scenarios. In the first scenario, the influences of internal reflective (Reflective Mirrors and Reflective Aluminum Foil) on hemispherical distillers performance was studied. In the second scenario, the influences of internal reflective with El-Oued sand grains as the energy store mediums on hemispherical distiller performances was studied. To achieve this goal, we designed and fabricated three hemispherical distillers, the first distiller represents the reference case (Conventional Hemispherical Solar Still—CHSS), the second is the Hemispherical Solar Still with Internal Reflective Mirrors (HSS-IRM), and a third is the Hemispherical Solar Still with Internal Reflective Aluminum Foil (HSS-IRAF). In the second experimental scenario, the El-Oued sand grains were added to the basin of the second and third distillers as follows; where the second distiller became a Hemispherical Solar Still with Internal Reflective Mirrors and El-Oued sand grains (HSS-IRM & SG), and a third distiller became a Hemispherical Solar Still with Internal Reflective Aluminum Foil and El-Oued sand grains (HSS-IRAF & SG). The results presented that the cumulative production of reference distiller (CHSS) up to 4750 mL/m 2 , while use of internal reflective mirrors and El-Oued sand grains (HSS-IRM & SG) increases the production to 9400 mL/m 2 day. The maximum improvement in cumulative distillate production, exergy efficiency, and thermal efficiency was recorded for utilization of internal reflective mirrors and El-Oued sand grains (HSS-IRM & SG) which reached 98, 200.9, and 96%, respectively, compared to reference case (CHSS). The economic feasibility indicated that the utilization of HSS-IRM & SG represent the good modification which reduced the cost of freshwater productivity by 49.1% compared to CHSS.
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ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-021-17367-9