A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima

Blast furnace slag (BF slag) was converted using alkali fusion method into a novel adsorbent to remove phosphate from aqueous solutions. The slag was mixed with NaOH powder (NaOH / Slag = 1.6) and then heated at 600 °C for 6 h to prepare the fused precursor. The precursor was stirred in distilled wa...

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Main Author: Wajima, Takaaki
Format: Article
Language:English
Published: Universiti Teknologi Mara Cawangan Pulau Pinang 2017
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Online Access:http://ir.uitm.edu.my/id/eprint/28757/1/AJ_TAKAAKI%20WAJIMA%20EAJ%20P%2017.pdf
http://ir.uitm.edu.my/id/eprint/28757/
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Institution: Universiti Teknologi Mara
Language: English
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spelling my.uitm.ir.287572020-03-12T01:32:02Z http://ir.uitm.edu.my/id/eprint/28757/ A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima Wajima, Takaaki Conditions and laws of chemical reactions TP Chemical technology Biotechnology Blast furnace slag (BF slag) was converted using alkali fusion method into a novel adsorbent to remove phosphate from aqueous solutions. The slag was mixed with NaOH powder (NaOH / Slag = 1.6) and then heated at 600 °C for 6 h to prepare the fused precursor. The precursor was stirred in distilled water at room temperature to synthesize the adsorbent and its ability to remove phosphate from aqueous solution was investigated. Fand PO43- removal efficiencies by the adsorbent were higher than those of raw BF slag, with the removal of PO43- being particularly excellent (99%), while Cl-, SO42-, NO3- and Brwere barely adsorbed. With increasing pH of the solution to around pH 7, phosphate removal of the product increases, and then becomes almost constant. The equilibrium adsorption capacity of the product for PO43- was found to fit the Freundlich isotherm better than the Langmuir isotherm, and the calculated maximum PO43- adsorption capacity of the product was 7.67 mmol/g. Phosphate removal corresponded better to a pseudo second-order kinetic model than a pseudo first-order model. The high affinity of the adsorbent for PO43- in aqueous solution was caused by the formation of hydroxyapatite [Ca5(PO4)3(OH)] and brushite [CaHPO4•2H2O] Universiti Teknologi Mara Cawangan Pulau Pinang 2017-06 Article PeerReviewed text en http://ir.uitm.edu.my/id/eprint/28757/1/AJ_TAKAAKI%20WAJIMA%20EAJ%20P%2017.pdf Wajima, Takaaki (2017) A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima. ESTEEM Academic Journal, 13. pp. 1-17. ISSN 1675-7939 http://uppp.uitm.edu.my
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Conditions and laws of chemical reactions
TP Chemical technology
Biotechnology
spellingShingle Conditions and laws of chemical reactions
TP Chemical technology
Biotechnology
Wajima, Takaaki
A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima
description Blast furnace slag (BF slag) was converted using alkali fusion method into a novel adsorbent to remove phosphate from aqueous solutions. The slag was mixed with NaOH powder (NaOH / Slag = 1.6) and then heated at 600 °C for 6 h to prepare the fused precursor. The precursor was stirred in distilled water at room temperature to synthesize the adsorbent and its ability to remove phosphate from aqueous solution was investigated. Fand PO43- removal efficiencies by the adsorbent were higher than those of raw BF slag, with the removal of PO43- being particularly excellent (99%), while Cl-, SO42-, NO3- and Brwere barely adsorbed. With increasing pH of the solution to around pH 7, phosphate removal of the product increases, and then becomes almost constant. The equilibrium adsorption capacity of the product for PO43- was found to fit the Freundlich isotherm better than the Langmuir isotherm, and the calculated maximum PO43- adsorption capacity of the product was 7.67 mmol/g. Phosphate removal corresponded better to a pseudo second-order kinetic model than a pseudo first-order model. The high affinity of the adsorbent for PO43- in aqueous solution was caused by the formation of hydroxyapatite [Ca5(PO4)3(OH)] and brushite [CaHPO4•2H2O]
format Article
author Wajima, Takaaki
author_facet Wajima, Takaaki
author_sort Wajima, Takaaki
title A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima
title_short A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima
title_full A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima
title_fullStr A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima
title_full_unstemmed A novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / Takaaki Wajima
title_sort novel adsorbent formed from blast furnace slag by alkali fusion for phosphate ions removal / takaaki wajima
publisher Universiti Teknologi Mara Cawangan Pulau Pinang
publishDate 2017
url http://ir.uitm.edu.my/id/eprint/28757/1/AJ_TAKAAKI%20WAJIMA%20EAJ%20P%2017.pdf
http://ir.uitm.edu.my/id/eprint/28757/
http://uppp.uitm.edu.my
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