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CFD Modeling and Experimental Validation of a Solar Still

Earth is the densest planet of the solar system with total area of 510.072 million square Km. Over 71.68 of this area is covered with water leaving a scant area of 28.32 for human to inhabit. The fresh water accounts for only 2.5 of the total volume and the rest is the brackish water. Presently, the...

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Main Authors: Mahmood, T., Naz, M.Y., Sulaiman, S.A., Jamil, Y., Shukrullah, S., Zahid, M., Inayat, M.
Format: Article
Published: EDP Sciences 2017
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85033238974&doi=10.1051%2fmatecconf%2f201713102010&partnerID=40&md5=d7575b2ffd61d3434f7fb0a993d16ae2
http://eprints.utp.edu.my/19970/
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spelling my.utp.eprints.199702018-04-22T14:29:01Z CFD Modeling and Experimental Validation of a Solar Still Mahmood, T. Naz, M.Y. Sulaiman, S.A. Jamil, Y. Shukrullah, S. Zahid, M. Inayat, M. Earth is the densest planet of the solar system with total area of 510.072 million square Km. Over 71.68 of this area is covered with water leaving a scant area of 28.32 for human to inhabit. The fresh water accounts for only 2.5 of the total volume and the rest is the brackish water. Presently, the world is facing chief problem of lack of potable water. This issue can be addressed by converting brackish water into potable through a solar distillation process and solar still is specially assigned for this purpose. Efficiency of a solar still explicitly depends on its design parameters, such as wall material, chamber depth, width and slope of the zcondensing surface. This study was aimed at investigating the solar still parameters using CFD modeling and experimental validation. The simulation data of ANSYS-FLUENT was compared with actual experimental data. A close agreement among the simulated and experimental results was seen in the presented work. It reveals that ANSYS-FLUENT is a potent tool to analyse the efficiency of the new designs of the solar distillation systems. © The authors, published by EDP Sciences, 2017. EDP Sciences 2017 Article PeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85033238974&doi=10.1051%2fmatecconf%2f201713102010&partnerID=40&md5=d7575b2ffd61d3434f7fb0a993d16ae2 Mahmood, T. and Naz, M.Y. and Sulaiman, S.A. and Jamil, Y. and Shukrullah, S. and Zahid, M. and Inayat, M. (2017) CFD Modeling and Experimental Validation of a Solar Still. MATEC Web of Conferences, 131 . http://eprints.utp.edu.my/19970/
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description Earth is the densest planet of the solar system with total area of 510.072 million square Km. Over 71.68 of this area is covered with water leaving a scant area of 28.32 for human to inhabit. The fresh water accounts for only 2.5 of the total volume and the rest is the brackish water. Presently, the world is facing chief problem of lack of potable water. This issue can be addressed by converting brackish water into potable through a solar distillation process and solar still is specially assigned for this purpose. Efficiency of a solar still explicitly depends on its design parameters, such as wall material, chamber depth, width and slope of the zcondensing surface. This study was aimed at investigating the solar still parameters using CFD modeling and experimental validation. The simulation data of ANSYS-FLUENT was compared with actual experimental data. A close agreement among the simulated and experimental results was seen in the presented work. It reveals that ANSYS-FLUENT is a potent tool to analyse the efficiency of the new designs of the solar distillation systems. © The authors, published by EDP Sciences, 2017.
format Article
author Mahmood, T.
Naz, M.Y.
Sulaiman, S.A.
Jamil, Y.
Shukrullah, S.
Zahid, M.
Inayat, M.
spellingShingle Mahmood, T.
Naz, M.Y.
Sulaiman, S.A.
Jamil, Y.
Shukrullah, S.
Zahid, M.
Inayat, M.
CFD Modeling and Experimental Validation of a Solar Still
author_facet Mahmood, T.
Naz, M.Y.
Sulaiman, S.A.
Jamil, Y.
Shukrullah, S.
Zahid, M.
Inayat, M.
author_sort Mahmood, T.
title CFD Modeling and Experimental Validation of a Solar Still
title_short CFD Modeling and Experimental Validation of a Solar Still
title_full CFD Modeling and Experimental Validation of a Solar Still
title_fullStr CFD Modeling and Experimental Validation of a Solar Still
title_full_unstemmed CFD Modeling and Experimental Validation of a Solar Still
title_sort cfd modeling and experimental validation of a solar still
publisher EDP Sciences
publishDate 2017
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85033238974&doi=10.1051%2fmatecconf%2f201713102010&partnerID=40&md5=d7575b2ffd61d3434f7fb0a993d16ae2
http://eprints.utp.edu.my/19970/
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score 13.18916

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