Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller

Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller

In the hot climate of the Mangistau region, located on the eastern coast of the Caspian, there are no sources of freshwater. Of the available groundwater deposits, only three are suitable for drinking water supply. The scarcity is felt in remote areas and coastal areas, where the population uses gro...

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Main Authors: S.E. Koibakova, G.J. Kenzhetaev, S. Syrlybekkyzy, G. Tarasenko, B. Suleimenova, Lyailim Taizhanova
Format: Article
Language:English
Published: Elsevier 2021-02-01
Series:Heliyon
Subjects:
Solar radiation
Heliosystem
Passive water heater
Active desalter
Temperature regime
Heat and mass transfer
Online Access:http://www.sciencedirect.com/science/article/pii/S2405844021000438
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spelling doaj-5034aeed8d2946b9999b1598abf5b38d2021-03-03T04:22:35ZengElsevierHeliyon2405-84402021-02-0172e05938Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distillerS.E. Koibakova0G.J. Kenzhetaev1S. Syrlybekkyzy2G. Tarasenko3B. Suleimenova4Lyailim Taizhanova5Corresponding author.; Yessenov University, Caspian State University of Technologies and Engineering Named After Sh. Yessenov. Kazakhstan, Aktau, 32 mkr., Main Building. Index 130000, KazakhstanYessenov University, Caspian State University of Technologies and Engineering Named After Sh. Yessenov. Kazakhstan, Aktau, 32 mkr., Main Building. Index 130000, KazakhstanYessenov University, Caspian State University of Technologies and Engineering Named After Sh. Yessenov. Kazakhstan, Aktau, 32 mkr., Main Building. Index 130000, KazakhstanYessenov University, Caspian State University of Technologies and Engineering Named After Sh. Yessenov. Kazakhstan, Aktau, 32 mkr., Main Building. Index 130000, KazakhstanYessenov University, Caspian State University of Technologies and Engineering Named After Sh. Yessenov. Kazakhstan, Aktau, 32 mkr., Main Building. Index 130000, KazakhstanYessenov University, Caspian State University of Technologies and Engineering Named After Sh. Yessenov. Kazakhstan, Aktau, 32 mkr., Main Building. Index 130000, KazakhstanIn the hot climate of the Mangistau region, located on the eastern coast of the Caspian, there are no sources of freshwater. Of the available groundwater deposits, only three are suitable for drinking water supply. The scarcity is felt in remote areas and coastal areas, where the population uses groundwater.The provision of the population is carried out by a seawater desalination plant. In the hot summer period, due to high temperatures, the productivity of desalination plants decreases (the water in the channels reaches 30 °C, and the plants are designed for 20 °C). This factor provides opportunities for the development of desalination plants using this heliopotential.Easy to manufacture, environmentally and economically viable solar desalination plants are essential for coastal areas where water is scarce.The article presents the results of experimental studies of the heliosystem, which consists of a passive solar water heater (SWH) and an active solar desalination plant (SW). Water is heated in the SWH pool and supplied to the lower SW pool-1, in which the desalination process is achieved by cooling the water pool-2.By reducing the temperature in the SW volume, the condensation temperature is reached. The coating of 2 layers of glass with an air gap reduces heat losses and raises the temperature in the installations by 10–12 °C and keeps it at night. Horizontal glass coverings provide a large area for solar radiation to enter the pool surface. Heat transfer by convection, in the volume between the ''cold'' and ''hot'' basins, is determined using the convection coefficient, which depends on the product of the numbers Gr and Pr. According to the results of experiments, the daily productivity of the desalter was 1.97, 1.83 and 2.31 l/m2 on the day of July 20, 21 and 22, 2019. The maximum value of the total heat transfer coefficient for SVN was 32.9 W/m2 °C, for SW 49.4 W/m2 °C.http://www.sciencedirect.com/science/article/pii/S2405844021000438Solar radiationHeliosystemPassive water heaterActive desalterTemperature regimeHeat and mass transfer
collection DOAJ
language English
format Article
sources DOAJ
author S.E. Koibakova
G.J. Kenzhetaev
S. Syrlybekkyzy
G. Tarasenko
B. Suleimenova
Lyailim Taizhanova
spellingShingle S.E. Koibakova
G.J. Kenzhetaev
S. Syrlybekkyzy
G. Tarasenko
B. Suleimenova
Lyailim Taizhanova
Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller
Heliyon
Solar radiation
Heliosystem
Passive water heater
Active desalter
Temperature regime
Heat and mass transfer
author_facet S.E. Koibakova
G.J. Kenzhetaev
S. Syrlybekkyzy
G. Tarasenko
B. Suleimenova
Lyailim Taizhanova
author_sort S.E. Koibakova
title Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller
title_short Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller
title_full Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller
title_fullStr Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller
title_full_unstemmed Experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller
title_sort experimental studies of the efficiency of a solar system, including a passive water heater and an active seawater distiller
publisher Elsevier
series Heliyon
issn 2405-8440
publishDate 2021-02-01
description In the hot climate of the Mangistau region, located on the eastern coast of the Caspian, there are no sources of freshwater. Of the available groundwater deposits, only three are suitable for drinking water supply. The scarcity is felt in remote areas and coastal areas, where the population uses groundwater.The provision of the population is carried out by a seawater desalination plant. In the hot summer period, due to high temperatures, the productivity of desalination plants decreases (the water in the channels reaches 30 °C, and the plants are designed for 20 °C). This factor provides opportunities for the development of desalination plants using this heliopotential.Easy to manufacture, environmentally and economically viable solar desalination plants are essential for coastal areas where water is scarce.The article presents the results of experimental studies of the heliosystem, which consists of a passive solar water heater (SWH) and an active solar desalination plant (SW). Water is heated in the SWH pool and supplied to the lower SW pool-1, in which the desalination process is achieved by cooling the water pool-2.By reducing the temperature in the SW volume, the condensation temperature is reached. The coating of 2 layers of glass with an air gap reduces heat losses and raises the temperature in the installations by 10–12 °C and keeps it at night. Horizontal glass coverings provide a large area for solar radiation to enter the pool surface. Heat transfer by convection, in the volume between the ''cold'' and ''hot'' basins, is determined using the convection coefficient, which depends on the product of the numbers Gr and Pr. According to the results of experiments, the daily productivity of the desalter was 1.97, 1.83 and 2.31 l/m2 on the day of July 20, 21 and 22, 2019. The maximum value of the total heat transfer coefficient for SVN was 32.9 W/m2 °C, for SW 49.4 W/m2 °C.
topic Solar radiation
Heliosystem
Passive water heater
Active desalter
Temperature regime
Heat and mass transfer
url http://www.sciencedirect.com/science/article/pii/S2405844021000438
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