Improving the performance of a modified hemispherical solar distiller using a double-faces absorbing solar thermal receiver integrated with a solar concentrator

Improving the performance of a modified hemispherical solar distiller using a double-faces absorbing solar thermal receiver integrated with a solar concentrator

•Double-faces absorbing solar receivers integrated with solar concentrator (DFASTR&SC) are very effective choices.•New DFASTR&SC has a great influence on hemispherical solar distiller performance.•Use DFASTR&SC improved a hemispherical distiller yield to 8.65 l/m2 with improvement of 50....

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Published in:Solar energy Vol. 241; pp. 335 - 342
Main Authors: El Hadi Attia, Mohammed, Elnaby Kabeel, Abd, Refat Abd Elbar, Ayman, Abdelgaied, Mohamed, Abdullah, A.S., Khairat Dawood, Mohamed M., Kabeel, A.
Format: Journal Article
Language:English
Published: Elsevier Ltd 15-07-2022
Subjects:
Double-Faces Absorbing Solar Receiver
Energy Efficiency
Exergy Efficiency
Hemispherical Solar Distiller
Performance Improvement
Solar Concentrator
Exergy Efficiency
Solar Concentrator
Performance Improvement
Double-Faces Absorbing Solar Receiver
Energy Efficiency
Hemispherical Solar Distiller
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Abstract •Double-faces absorbing solar receivers integrated with solar concentrator (DFASTR&SC) are very effective choices.•New DFASTR&SC has a great influence on hemispherical solar distiller performance.•Use DFASTR&SC improved a hemispherical distiller yield to 8.65 l/m2 with improvement of 50.4%•Use DFASTR&SC improved the distiller thermal efficiency by 50.56% compared to the reference unit.•Use DFASTR&SC improved the exergy efficiency to 68% compared to 2.47% for the reference unit. Innovative configurations and designs improve the performance of solar distillers. From this view, the present study aims to achieve the maximum possible benefit from a large condensation surface that characterizes the hemispherical distillers by increasing the evaporation rates. This was done by using a double-face absorbing solar thermal receiver integrated with a solar concentrator. To obtain the influences of double-faces absorbing solar thermal receiver integrated with a solar concentrator on hemispherical distiller’s performance. Two hemispherical distillers were fabricated and operated in El Oued City, Algeria, first is a modified hemispherical distiller using double-faces absorbing solar thermal receiver integrated with a solar concentrator (MHSD-DFASTR&SC), and the second is the reference distiller (traditional hemispherical solar distiller (THSD)). The experimental results indicate that MHSD-DFASTR&SC increases the productivity to 8.65 l/m2.day compared to 5.75 l/m2.day for THSD with an improvement of 50.4%. Consequently, due to this great increase in yield of MHSD-DFASTR&SC, the energy efficiency of MHSD-DFASTR&SC was increased by 50.56% compared to THSD. Furthermore, the daily exergy efficiency of MHSD-DFASTR&SC is 68% compared with 2.47% for THSD.
AbstractList •Double-faces absorbing solar receivers integrated with solar concentrator (DFASTR&SC) are very effective choices.•New DFASTR&SC has a great influence on hemispherical solar distiller performance.•Use DFASTR&SC improved a hemispherical distiller yield to 8.65 l/m2 with improvement of 50.4%•Use DFASTR&SC improved the distiller thermal efficiency by 50.56% compared to the reference unit.•Use DFASTR&SC improved the exergy efficiency to 68% compared to 2.47% for the reference unit. Innovative configurations and designs improve the performance of solar distillers. From this view, the present study aims to achieve the maximum possible benefit from a large condensation surface that characterizes the hemispherical distillers by increasing the evaporation rates. This was done by using a double-face absorbing solar thermal receiver integrated with a solar concentrator. To obtain the influences of double-faces absorbing solar thermal receiver integrated with a solar concentrator on hemispherical distiller’s performance. Two hemispherical distillers were fabricated and operated in El Oued City, Algeria, first is a modified hemispherical distiller using double-faces absorbing solar thermal receiver integrated with a solar concentrator (MHSD-DFASTR&SC), and the second is the reference distiller (traditional hemispherical solar distiller (THSD)). The experimental results indicate that MHSD-DFASTR&SC increases the productivity to 8.65 l/m2.day compared to 5.75 l/m2.day for THSD with an improvement of 50.4%. Consequently, due to this great increase in yield of MHSD-DFASTR&SC, the energy efficiency of MHSD-DFASTR&SC was increased by 50.56% compared to THSD. Furthermore, the daily exergy efficiency of MHSD-DFASTR&SC is 68% compared with 2.47% for THSD.
Author Khairat Dawood, Mohamed M.
Refat Abd Elbar, Ayman
El Hadi Attia, Mohammed
Abdullah, A.S.
Kabeel, A.
Elnaby Kabeel, Abd
Abdelgaied, Mohamed
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  givenname: Mohamed M.
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  fullname: Khairat Dawood, Mohamed M.
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  organization: Electronics and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Egypt
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Keywords Exergy Efficiency
Solar Concentrator
Performance Improvement
Double-Faces Absorbing Solar Receiver
Energy Efficiency
Hemispherical Solar Distiller
Language English
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Snippet •Double-faces absorbing solar receivers integrated with solar concentrator (DFASTR&SC) are very effective choices.•New DFASTR&SC has a great influence on...
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SubjectTerms Double-Faces Absorbing Solar Receiver
Energy Efficiency
Exergy Efficiency
Hemispherical Solar Distiller
Performance Improvement
Solar Concentrator
Title Improving the performance of a modified hemispherical solar distiller using a double-faces absorbing solar thermal receiver integrated with a solar concentrator
URI https://dx.doi.org/10.1016/j.solener.2022.06.016
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