Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell
An excessive amount of phosphate (PO43−) released from domestic wastewater treatment plant effluent (DWTPE) may trigger eutrophication of water causing a degradation of healthy aquatic ecosystem. Even though the PO43− ions can be removed from aqueous solution with an adsorption technique using the l...
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2022
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my.utm.1047792024-03-01T01:47:27Z http://eprints.utm.my/104779/ Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell Abdul Salim, Nur Atikah Fulazzaky, Mohamad Ali Puteh, Mohd. Hafiz Khamidun, Mohd. Hairul Mohd. Yusoff, Abdull Rahim Abdullah, Noorul Hudai Mohammad Fulazzaky, Mohammad Fulazzaky Ahmad Zaini, Muhammad Abbas TA Engineering (General). Civil engineering (General) An excessive amount of phosphate (PO43−) released from domestic wastewater treatment plant effluent (DWTPE) may trigger eutrophication of water causing a degradation of healthy aquatic ecosystem. Even though the PO43− ions can be removed from aqueous solution with an adsorption technique using the low-cost adsorbent, the adsorption kinetics of PO43− removal must be understood. The bed depth service time (BDST), Thomas and modified mass transfer factor (MMTF) models were used to investigate the adsorption kinetics of PO43− removed from DWTPE onto the waste mussel shell (WMS) applied to hybrid plug flow column reactor (HPFCR). Dynamic adsorption capacity of WMS described by the new modified BDST model is shown to increase with increasing of the plug flow column (PFC) bed. The analysis of mass transfer behavior described using the Thomas model is able to predict the performance of HPFCR at certain depths of the PFC bed. The use of the MMTF models could be useful to describe the real difference between the behaviors of film mass transfer and porous diffusion. The resistance of PO43− mass transfer depending on porous diffusion has been verified to provide a contribution in the development of advanced WMS adsorbent for enhancing the HPFCR performance in the future. Springer Nature 2022-06 Article PeerReviewed Abdul Salim, Nur Atikah and Fulazzaky, Mohamad Ali and Puteh, Mohd. Hafiz and Khamidun, Mohd. Hairul and Mohd. Yusoff, Abdull Rahim and Abdullah, Noorul Hudai and Mohammad Fulazzaky, Mohammad Fulazzaky and Ahmad Zaini, Muhammad Abbas (2022) Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell. Water, Air, and Soil Pollution, 233 (6). pp. 1-22. ISSN 0049-6979 http://dx.doi.org/10.1007/s11270-022-05693-8 DOI:10.1007/s11270-022-05693-8 |
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TA Engineering (General). Civil engineering (General) Abdul Salim, Nur Atikah Fulazzaky, Mohamad Ali Puteh, Mohd. Hafiz Khamidun, Mohd. Hairul Mohd. Yusoff, Abdull Rahim Abdullah, Noorul Hudai Mohammad Fulazzaky, Mohammad Fulazzaky Ahmad Zaini, Muhammad Abbas Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell |
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An excessive amount of phosphate (PO43−) released from domestic wastewater treatment plant effluent (DWTPE) may trigger eutrophication of water causing a degradation of healthy aquatic ecosystem. Even though the PO43− ions can be removed from aqueous solution with an adsorption technique using the low-cost adsorbent, the adsorption kinetics of PO43− removal must be understood. The bed depth service time (BDST), Thomas and modified mass transfer factor (MMTF) models were used to investigate the adsorption kinetics of PO43− removed from DWTPE onto the waste mussel shell (WMS) applied to hybrid plug flow column reactor (HPFCR). Dynamic adsorption capacity of WMS described by the new modified BDST model is shown to increase with increasing of the plug flow column (PFC) bed. The analysis of mass transfer behavior described using the Thomas model is able to predict the performance of HPFCR at certain depths of the PFC bed. The use of the MMTF models could be useful to describe the real difference between the behaviors of film mass transfer and porous diffusion. The resistance of PO43− mass transfer depending on porous diffusion has been verified to provide a contribution in the development of advanced WMS adsorbent for enhancing the HPFCR performance in the future. |
| format |
Article |
| author |
Abdul Salim, Nur Atikah Fulazzaky, Mohamad Ali Puteh, Mohd. Hafiz Khamidun, Mohd. Hairul Mohd. Yusoff, Abdull Rahim Abdullah, Noorul Hudai Mohammad Fulazzaky, Mohammad Fulazzaky Ahmad Zaini, Muhammad Abbas |
| author_facet |
Abdul Salim, Nur Atikah Fulazzaky, Mohamad Ali Puteh, Mohd. Hafiz Khamidun, Mohd. Hairul Mohd. Yusoff, Abdull Rahim Abdullah, Noorul Hudai Mohammad Fulazzaky, Mohammad Fulazzaky Ahmad Zaini, Muhammad Abbas |
| author_sort |
Abdul Salim, Nur Atikah |
| title |
Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell |
| title_short |
Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell |
| title_full |
Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell |
| title_fullStr |
Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell |
| title_full_unstemmed |
Mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell |
| title_sort |
mass transfer kinetics and mechanisms of phosphate adsorbed on waste mussel shell |
| publisher |
Springer Nature |
| publishDate |
2022 |
| url |
http://eprints.utm.my/104779/ http://dx.doi.org/10.1007/s11270-022-05693-8 |
| _version_ |
1793149212587720704 |
| score |
13.160551 |