Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties

Just-suspension conditions were studied in a dished base baffled cylindrical tank with internal diameter, T=155 mm using two variables of impeller-to-tank geometry, D=0.3T and 0.5T. The performance of the alternative geometries was studied using a conventional down-pumping 45° four pitched blade tur...

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Main Authors: Janurin, Nur Syafiqah, Ibrahim, Shaliza, Zamzam, Zauyah, Kato, Yoshikazu
Format: Article
Published: Society of Chemical Engineers, Japan 2018
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Online Access:http://eprints.um.edu.my/21749/
https://doi.org/10.1252/jcej.17we026
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spelling my.um.eprints.217492019-08-02T02:39:03Z http://eprints.um.edu.my/21749/ Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties Janurin, Nur Syafiqah Ibrahim, Shaliza Zamzam, Zauyah Kato, Yoshikazu TA Engineering (General). Civil engineering (General) Just-suspension conditions were studied in a dished base baffled cylindrical tank with internal diameter, T=155 mm using two variables of impeller-to-tank geometry, D=0.3T and 0.5T. The performance of the alternative geometries was studied using a conventional down-pumping 45° four pitched blade turbine (4PBT) impeller in comparison to the novel SATAKE SUPERMIX® HR100 and HS604 impellers. The slurry comprised of 18.0, 75.3 and 195.5 µm PMMA particles in concentrations ranging from 5–40% by weight. The performance of solid suspension was assessed in a dished base tank, which was found to be not as efficient as the flat base tank when used with the D=0.5T impellers. However, it is interesting to note that, when used with a suitable impeller, namely the HS604 impeller, the dished base tank was more superior to the flat base tank. This indicates that impeller-to-tank geometry is critical in determining the efficiency of solid suspension. Additionally, solid suspension performance in a dished base tank was markedly enhanced with D=0.3T impellers by approximately 60 to 80% reduction in the specific energy at just suspension (εjs) compared with D=0.5T, resulting from the fluid flow pattern generated inside the stirred tank. This suggests that the dished base tank is not a poor option for solid suspension if it is used with the right impeller geometry. Society of Chemical Engineers, Japan 2018 Article PeerReviewed Janurin, Nur Syafiqah and Ibrahim, Shaliza and Zamzam, Zauyah and Kato, Yoshikazu (2018) Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties. Journal of Chemical Engineering of Japan, 51 (2). pp. 152-158. ISSN 0021-9592 https://doi.org/10.1252/jcej.17we026 doi:10.1252/jcej.17we026
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic TA Engineering (General). Civil engineering (General)
spellingShingle TA Engineering (General). Civil engineering (General)
Janurin, Nur Syafiqah
Ibrahim, Shaliza
Zamzam, Zauyah
Kato, Yoshikazu
Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties
description Just-suspension conditions were studied in a dished base baffled cylindrical tank with internal diameter, T=155 mm using two variables of impeller-to-tank geometry, D=0.3T and 0.5T. The performance of the alternative geometries was studied using a conventional down-pumping 45° four pitched blade turbine (4PBT) impeller in comparison to the novel SATAKE SUPERMIX® HR100 and HS604 impellers. The slurry comprised of 18.0, 75.3 and 195.5 µm PMMA particles in concentrations ranging from 5–40% by weight. The performance of solid suspension was assessed in a dished base tank, which was found to be not as efficient as the flat base tank when used with the D=0.5T impellers. However, it is interesting to note that, when used with a suitable impeller, namely the HS604 impeller, the dished base tank was more superior to the flat base tank. This indicates that impeller-to-tank geometry is critical in determining the efficiency of solid suspension. Additionally, solid suspension performance in a dished base tank was markedly enhanced with D=0.3T impellers by approximately 60 to 80% reduction in the specific energy at just suspension (εjs) compared with D=0.5T, resulting from the fluid flow pattern generated inside the stirred tank. This suggests that the dished base tank is not a poor option for solid suspension if it is used with the right impeller geometry.
format Article
author Janurin, Nur Syafiqah
Ibrahim, Shaliza
Zamzam, Zauyah
Kato, Yoshikazu
author_facet Janurin, Nur Syafiqah
Ibrahim, Shaliza
Zamzam, Zauyah
Kato, Yoshikazu
author_sort Janurin, Nur Syafiqah
title Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties
title_short Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties
title_full Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties
title_fullStr Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties
title_full_unstemmed Solid Suspension Characteristics in a Dished Base Tank for a Range of Geometric and Solids Properties
title_sort solid suspension characteristics in a dished base tank for a range of geometric and solids properties
publisher Society of Chemical Engineers, Japan
publishDate 2018
url http://eprints.um.edu.my/21749/
https://doi.org/10.1252/jcej.17we026
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