TRNSYS simulation analysis of basin-type solar still

Conventional basin-type solar still (CSS) is the simplest type of solar water distillation system. In this study, CSS was modeled and simulated. The effect of variations in water mass inside the basin, absorber absorptivity, glass absorptivity, glass reflectivity and heat loss coefficient were inves...

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Main Authors: Haribawono, Mikhael G., Wicaksono, Wisnu J., Sambada, F. A. Rusdi
Format: Conference Proceeding
Language:English
Subjects:
Absorbers
Absorptivity
Ambient temperature
Coefficient of variation
Design parameters
Distillation
Distilled water
Heat loss
Radiant flux density
Reflectance
Simulation
Solar radiation
Water masses
Wind speed
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Wicaksono, Wisnu J.
Sambada, F. A. Rusdi
description Conventional basin-type solar still (CSS) is the simplest type of solar water distillation system. In this study, CSS was modeled and simulated. The effect of variations in water mass inside the basin, absorber absorptivity, glass absorptivity, glass reflectivity and heat loss coefficient were investigated. Finally, the system was simulated using the same data of solar radiation intensity, ambient temperature and wind speed in each variation and the highest distilled water results are 2.33 kg in water mass inside the basin variation of 5 kg, absorber absorptivity variation of 0.9, glass absorptivity variation of 0.06, glass reflectivity variation of 0.08 and heat loss coefficient variation of 14 W/(m2.K). Overall study shows that TRNSYS is a very useful tool for design and parameter analysis of solar water distillation system.
doi_str_mv 10.1063/5.0062855
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Absorbers
Absorptivity
Ambient temperature
Coefficient of variation
Design parameters
Distillation
Distilled water
Heat loss
Radiant flux density
Reflectance
Simulation
Solar radiation
Water masses
Wind speed
title TRNSYS simulation analysis of basin-type solar still
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