A new optimized artificial neural network model to predict thermal efficiency and water yield of tubular solar still

Tubular solar still is a simple light-weight desalination unit with a large condensing surface compared with other types of solar stills. Regrettably, it suffers from the low water yield like other types of solar stills. In this work, two main research themes are studied. The first is enhancing the...

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Published inCase studies in thermal engineering Vol. 30; p. 101750
Main Authors Moustafa, Essam B., Hammad, Ahmed H., Elsheikh, Ammar H.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2022
Elsevier
Subjects
Artificial neural network
Electrical heater
Humpback whale optimizer
Solar desalination
Tubular solar still
Artificial neural network
Humpback whale optimizer
Electrical heater
Solar desalination
Tubular solar still
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Abstract Tubular solar still is a simple light-weight desalination unit with a large condensing surface compared with other types of solar stills. Regrettably, it suffers from the low water yield like other types of solar stills. In this work, two main research themes are studied. The first is enhancing the water yield and thermal efficiency of tubular solar still by providing the absorber plate with an electrical heater powered by a solar photovoltaic panel. The performance of the modified solar still is evaluated based on its water yield as well as energy and exergy efficiencies. The second is developing a fine-tuned artificial intelligent model to predict the thermal efficiency and water yield of the solar still. The fine-tuned model consists of a traditional artificial neural network model optimized by a meta-heuristic optimizer called humpback whale optimizer. The prediction accuracy of the developed model is compared with that of the standalone artificial neural network model and an optimized model using a traditional particle swarm optimizer. The results showed that the conventional tubular solar still produces an average accumulated water yield of 2.58 L/m2/day, while the modified tubular solar still produces an average accumulated water yield of 3.41 L/m2/day with 31.85% improvement. The daytime energy efficiency of the modified tubular solar still is 38.61%, but for the conventional one is only 30.67%. Moreover, the new developed model has the highest prediction accuracy among other investigated models. The optimized model using humpback whale optimizer has the highest correlation coefficient ranges between 0.983 and 0.999, the optimized model using particle swarm optimizer has a moderate correlation coefficient between 0.969 and 0.987, and standalone model has the lowest ranges between 0.594 and 0.937. These results revealed the vital role of the electrical heater in enhancing the thermal performance of the solar still and the important role of humpback whale optimizer for improving the prediction accuracy of the traditional neural network models.
AbstractList Tubular solar still is a simple light-weight desalination unit with a large condensing surface compared with other types of solar stills. Regrettably, it suffers from the low water yield like other types of solar stills. In this work, two main research themes are studied. The first is enhancing the water yield and thermal efficiency of tubular solar still by providing the absorber plate with an electrical heater powered by a solar photovoltaic panel. The performance of the modified solar still is evaluated based on its water yield as well as energy and exergy efficiencies. The second is developing a fine-tuned artificial intelligent model to predict the thermal efficiency and water yield of the solar still. The fine-tuned model consists of a traditional artificial neural network model optimized by a meta-heuristic optimizer called humpback whale optimizer. The prediction accuracy of the developed model is compared with that of the standalone artificial neural network model and an optimized model using a traditional particle swarm optimizer. The results showed that the conventional tubular solar still produces an average accumulated water yield of 2.58 L/m2/day, while the modified tubular solar still produces an average accumulated water yield of 3.41 L/m2/day with 31.85% improvement. The daytime energy efficiency of the modified tubular solar still is 38.61%, but for the conventional one is only 30.67%. Moreover, the new developed model has the highest prediction accuracy among other investigated models. The optimized model using humpback whale optimizer has the highest correlation coefficient ranges between 0.983 and 0.999, the optimized model using particle swarm optimizer has a moderate correlation coefficient between 0.969 and 0.987, and standalone model has the lowest ranges between 0.594 and 0.937. These results revealed the vital role of the electrical heater in enhancing the thermal performance of the solar still and the important role of humpback whale optimizer for improving the prediction accuracy of the traditional neural network models.
ArticleNumber 101750
Author Elsheikh, Ammar H.
Hammad, Ahmed H.
Moustafa, Essam B.
Author_xml – sequence: 1
  givenname: Essam B.
  surname: Moustafa
  fullname: Moustafa, Essam B.
  organization: Department of Mechanical Engineering, King Abdulaziz University, Jeddah, 22254, Saudi Arabia
– sequence: 2
  givenname: Ahmed H.
  surname: Hammad
  fullname: Hammad, Ahmed H.
  organization: Center of Nanotechnology, King Abdulaziz University, Jeddah, Saudi Arabia
– sequence: 3
  givenname: Ammar H.
  orcidid: 0000-0003-0944-4938
  surname: Elsheikh
  fullname: Elsheikh, Ammar H.
  email: ammar_elsheikh@f-eng.tanta.edu.eg
  organization: Faculty of Engineering, Tanta University, Tanta, 31527, Egypt
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Keywords Artificial neural network
Humpback whale optimizer
Electrical heater
Solar desalination
Tubular solar still
Language English
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Snippet Tubular solar still is a simple light-weight desalination unit with a large condensing surface compared with other types of solar stills. Regrettably, it...
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StartPage 101750
SubjectTerms Artificial neural network
Electrical heater
Humpback whale optimizer
Solar desalination
Tubular solar still
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  priority: 102
  providerName: Elsevier
Title A new optimized artificial neural network model to predict thermal efficiency and water yield of tubular solar still
URI https://dx.doi.org/10.1016/j.csite.2021.101750
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