Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies

The adsorption process for the removal of Pb2+ in the water sample was conducted using raw and calcined dolomite that was charred at 750 celcius. From the literature, dolomite showed good adsorption capability for metal ions from the water. A lake water sample from Tasik Varsiti, Universiti Malaya,...

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Main Authors: Jamil, N. A., Patah, M. F. A., Junaidi, M. U. M., Jan, B. M., Zuki, F. M., Tan, C. K., Nor, M. I. M., Hashim, N. H.
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Published: Springer 2024
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Online Access:http://eprints.um.edu.my/45947/
https://doi.org/10.1007/s13762-023-05375-w
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spelling my.um.eprints.459472024-11-14T06:31:02Z http://eprints.um.edu.my/45947/ Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies Jamil, N. A. Patah, M. F. A. Junaidi, M. U. M. Jan, B. M. Zuki, F. M. Tan, C. K. Nor, M. I. M. Hashim, N. H. TD Environmental technology. Sanitary engineering The adsorption process for the removal of Pb2+ in the water sample was conducted using raw and calcined dolomite that was charred at 750 celcius. From the literature, dolomite showed good adsorption capability for metal ions from the water. A lake water sample from Tasik Varsiti, Universiti Malaya, Malaysia, was utilised to create a simulated Pb2+ solution in which lead (II) nitrate was added. In this work, the batch adsorption method was employed. With the use of inductively coupled plasma analysis and field emission scanning electron microscopy, the physico-chemical characteristics of the sorbent were identified. By adjusting the pH, retention durations, and stirring rates, the sorption properties of unmodified and modified dolomite for Pb2+ were investigated. At various operating settings, improvements in water quality in terms of turbidity and pH alterations were also investigated. Improvement in water quality in terms of turbidity and pH changes were also studied at different operating conditions. Calcined dolomite has an overall higher sorption capability compared to raw dolomite at all different operating conditions. The highest removal efficiency of Pb2+ for raw dolomite was observed at pH 7-9, retention time after 60 min and stirring speed of 500 rpm. Dolomite that was calcined at 750 celcius has the highest removal efficiency of 99.95% at pH 7-9, retention time after 30 min and without any stirring speed (0 rpm). Springer 2024-03 Article PeerReviewed Jamil, N. A. and Patah, M. F. A. and Junaidi, M. U. M. and Jan, B. M. and Zuki, F. M. and Tan, C. K. and Nor, M. I. M. and Hashim, N. H. (2024) Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies. International Journal of Environmental Science and Technology, 21 (6). pp. 5669-5680. ISSN 1735-1472, DOI https://doi.org/10.1007/s13762-023-05375-w <https://doi.org/10.1007/s13762-023-05375-w>. https://doi.org/10.1007/s13762-023-05375-w 10.1007/s13762-023-05375-w
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 TD Environmental technology. Sanitary engineering
spellingShingle TD Environmental technology. Sanitary engineering
Jamil, N. A.
Patah, M. F. A.
Junaidi, M. U. M.
Jan, B. M.
Zuki, F. M.
Tan, C. K.
Nor, M. I. M.
Hashim, N. H.
Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies
description The adsorption process for the removal of Pb2+ in the water sample was conducted using raw and calcined dolomite that was charred at 750 celcius. From the literature, dolomite showed good adsorption capability for metal ions from the water. A lake water sample from Tasik Varsiti, Universiti Malaya, Malaysia, was utilised to create a simulated Pb2+ solution in which lead (II) nitrate was added. In this work, the batch adsorption method was employed. With the use of inductively coupled plasma analysis and field emission scanning electron microscopy, the physico-chemical characteristics of the sorbent were identified. By adjusting the pH, retention durations, and stirring rates, the sorption properties of unmodified and modified dolomite for Pb2+ were investigated. At various operating settings, improvements in water quality in terms of turbidity and pH alterations were also investigated. Improvement in water quality in terms of turbidity and pH changes were also studied at different operating conditions. Calcined dolomite has an overall higher sorption capability compared to raw dolomite at all different operating conditions. The highest removal efficiency of Pb2+ for raw dolomite was observed at pH 7-9, retention time after 60 min and stirring speed of 500 rpm. Dolomite that was calcined at 750 celcius has the highest removal efficiency of 99.95% at pH 7-9, retention time after 30 min and without any stirring speed (0 rpm).
format Article
author Jamil, N. A.
Patah, M. F. A.
Junaidi, M. U. M.
Jan, B. M.
Zuki, F. M.
Tan, C. K.
Nor, M. I. M.
Hashim, N. H.
author_facet Jamil, N. A.
Patah, M. F. A.
Junaidi, M. U. M.
Jan, B. M.
Zuki, F. M.
Tan, C. K.
Nor, M. I. M.
Hashim, N. H.
author_sort Jamil, N. A.
title Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies
title_short Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies
title_full Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies
title_fullStr Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies
title_full_unstemmed Dolomite as a potential adsorbent in water treatment: pH, turbidity and Pb (II) removal studies
title_sort dolomite as a potential adsorbent in water treatment: ph, turbidity and pb (ii) removal studies
publisher Springer
publishDate 2024
url http://eprints.um.edu.my/45947/
https://doi.org/10.1007/s13762-023-05375-w
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