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Investigation of a Single Slope Solar Still Integrated with Gravels, Sand and Wick Materials: An Experimental Approach
Through tapping into the boundless resources provided by the sea and sun, scientists have created a sustainable and cost-effective drinking water supply using solar-powered desalination. In this manuscript, utilizing gravels, sand and wick materials as the energy storage medium is one of the key sus...
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| Published in: | Applied solar energy 2024, Vol.60 (3), p.370-382 |
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| Main Authors: | , , , , |
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| Language: | English |
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| container_end_page | 382 |
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| container_start_page | 370 |
| container_title | Applied solar energy |
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| creator | Dillip Kumar Biswal Moharana, Bikash Ranjan Muduli, Kamalakanta Muhammad, Noorhafiza Ahmad, Asnul Hadi |
| description | Through tapping into the boundless resources provided by the sea and sun, scientists have created a sustainable and cost-effective drinking water supply using solar-powered desalination. In this manuscript, utilizing gravels, sand and wick materials as the energy storage medium is one of the key sustainability modifications made for bettering the rate of evaporation within solar stills, hence enhancing the freshwater yield. Here, experiments on a single basin solar still with and without energy storage components have been carried out. Typically, energy storage materials are employed to enhance the rate of evaporation in solar stills, aiming to increase the yield of distilled water during nocturnal hours. Consequently, it was observed that using locally available heat storage materials in a solar still during daylight and overnight production of distillate for 15 liter of water input resulted in increases of 54.39 and 58.08%, respectively. In the case of upgraded solar desalination systems, the maximum thermal efficiencies were notably improved, with increases of 90.843, 84.464, and 66.326% compared to conventional solar desalination systems for water inputs of 15, 20, and 25 liters, respectively. The suggested solar still design is particularly well-suited for generating freshwater in regions with a pronounced demand, such as areas characterized by excessively saline groundwater, coastal zones, and rural locations. |
| doi_str_mv | 10.3103/S0003701X24602047 |
| format | article |
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In this manuscript, utilizing gravels, sand and wick materials as the energy storage medium is one of the key sustainability modifications made for bettering the rate of evaporation within solar stills, hence enhancing the freshwater yield. Here, experiments on a single basin solar still with and without energy storage components have been carried out. Typically, energy storage materials are employed to enhance the rate of evaporation in solar stills, aiming to increase the yield of distilled water during nocturnal hours. Consequently, it was observed that using locally available heat storage materials in a solar still during daylight and overnight production of distillate for 15 liter of water input resulted in increases of 54.39 and 58.08%, respectively. In the case of upgraded solar desalination systems, the maximum thermal efficiencies were notably improved, with increases of 90.843, 84.464, and 66.326% compared to conventional solar desalination systems for water inputs of 15, 20, and 25 liters, respectively. 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ISSN 0003-701X, Applied Solar Energy, 2024, Vol. 60, No. 3, pp. 370–382. © Allerton Press, Inc., 2024. 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Sol. Energy</addtitle><description>Through tapping into the boundless resources provided by the sea and sun, scientists have created a sustainable and cost-effective drinking water supply using solar-powered desalination. In this manuscript, utilizing gravels, sand and wick materials as the energy storage medium is one of the key sustainability modifications made for bettering the rate of evaporation within solar stills, hence enhancing the freshwater yield. Here, experiments on a single basin solar still with and without energy storage components have been carried out. Typically, energy storage materials are employed to enhance the rate of evaporation in solar stills, aiming to increase the yield of distilled water during nocturnal hours. Consequently, it was observed that using locally available heat storage materials in a solar still during daylight and overnight production of distillate for 15 liter of water input resulted in increases of 54.39 and 58.08%, respectively. In the case of upgraded solar desalination systems, the maximum thermal efficiencies were notably improved, with increases of 90.843, 84.464, and 66.326% compared to conventional solar desalination systems for water inputs of 15, 20, and 25 liters, respectively. 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| ispartof | Applied solar energy, 2024, Vol.60 (3), p.370-382 |
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| language | eng |
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| source | Springer Nature |
| subjects | Coastal zone Desalination Distilled water Drinking water Electrical Machines and Networks Energy storage Engineering Evaporation Evaporation rate Gravel Groundwater Heat storage Power Electronics Rural areas Saline groundwater Sand Solar energy Solar Installations and Their Application Solar stills Water supply |
| title | Investigation of a Single Slope Solar Still Integrated with Gravels, Sand and Wick Materials: An Experimental Approach |
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