Phosphorous adsorption on synthesized magnetite in wastewater

•Phosphate in water was recovered completely by dry-form magnetic iron oxide (MIO).•Elovich model reasonably simulated the behavior of phosphate adsorption on MIO.•Freundlich model was fitted well for describing the phosphate isotherm on MIO.•Phosphate-sdsorbed MIO can be effectively regenerated wit...

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Published inJournal of industrial and engineering chemistry (Seoul, Korea) Vol. 34; pp. 198 - 203
Main Authors Choi, Jeongyun, Chung, Jinwook, Lee, Wonhee, Kim, Jong-Oh
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.02.2016
한국공업화학회
Subjects
Adsorption
Computer simulation
Desorption
Detaching
Equilibrium isotherm
Iron oxides
Isotherms
Magnetic iron oxide
Magnetite
Mathematical models
Phosphates
Phosphorus recovery
화학공학
Desorption
Adsorption
Phosphorus recovery
Equilibrium isotherm
Magnetic iron oxide
Online AccessGet full text
ISSN1226-086X
1876-794X
DOI10.1016/j.jiec.2015.11.008

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Abstract •Phosphate in water was recovered completely by dry-form magnetic iron oxide (MIO).•Elovich model reasonably simulated the behavior of phosphate adsorption on MIO.•Freundlich model was fitted well for describing the phosphate isotherm on MIO.•Phosphate-sdsorbed MIO can be effectively regenerated with dilute NaOH solution. The phosphorous adsorption on a synthesized magnetic iron oxide (MIO) was conducted using a batch type experiment. A dry-form MIO was used in adsorption experiment to obtain useful information for practical application. The Elovich model reasonably simulated the two-step adsorption process in the kinetic experiments. Freundlich isotherm model was better than the Langmuir model for describing the phosphate isotherm on MIO. The maximum adsorption capacity of MIO was 15.2mgP/g MIO which was achieved at the pH less than 5. The adsorbed phosphorous was effectively detached from MIO within 30min using 20wt% NaOH solution.
AbstractList The phosphorous adsorption on a synthesized magnetic iron oxide (MIO) was conducted using a batch type experiment. A dry-form MIO was used in adsorption experiment to obtain useful information for practical application. The Elovich model reasonably simulated the two-step adsorption process in the kinetic experiments. Freundlich isotherm model was better than the Langmuir model for describing the phosphate isotherm on MIO. The maximum adsorption capacity of MIO was 15.2 mg P/g MIO which was achieved at the pH less than 5. The adsorbed phosphorous was effectively detached from MIO within 30 min using 20 wt% NaOH solution.
The phosphorous adsorption on a synthesized magnetic iron oxide (MIO) was conducted using a batchtype experiment. A dry-form MIO was used in adsorption experiment to obtain useful information forpractical application. The Elovich model reasonably simulated the two-step adsorption process in thekinetic experiments. Freundlich isotherm model was better than the Langmuir model for describing thephosphate isotherm on MIO. The maximum adsorption capacity of MIO was 15.2 mg P/g MIO which wasachieved at the pH less than 5. The adsorbed phosphorous was effectively detached from MIO within30 min using 20 wt% NaOH solution. KCI Citation Count: 46
•Phosphate in water was recovered completely by dry-form magnetic iron oxide (MIO).•Elovich model reasonably simulated the behavior of phosphate adsorption on MIO.•Freundlich model was fitted well for describing the phosphate isotherm on MIO.•Phosphate-sdsorbed MIO can be effectively regenerated with dilute NaOH solution. The phosphorous adsorption on a synthesized magnetic iron oxide (MIO) was conducted using a batch type experiment. A dry-form MIO was used in adsorption experiment to obtain useful information for practical application. The Elovich model reasonably simulated the two-step adsorption process in the kinetic experiments. Freundlich isotherm model was better than the Langmuir model for describing the phosphate isotherm on MIO. The maximum adsorption capacity of MIO was 15.2mgP/g MIO which was achieved at the pH less than 5. The adsorbed phosphorous was effectively detached from MIO within 30min using 20wt% NaOH solution.
Author Choi, Jeongyun
Lee, Wonhee
Chung, Jinwook
Kim, Jong-Oh
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  givenname: Jinwook
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  organization: Department of Civil and Environmental Engineering, Hanyang University, 222 Wangsimni-Ro, Seongdong-Gu, Seoul 133-791, Republic of Korea
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Keywords Desorption
Adsorption
Phosphorus recovery
Equilibrium isotherm
Magnetic iron oxide
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Snippet •Phosphate in water was recovered completely by dry-form magnetic iron oxide (MIO).•Elovich model reasonably simulated the behavior of phosphate adsorption on...
The phosphorous adsorption on a synthesized magnetic iron oxide (MIO) was conducted using a batch type experiment. A dry-form MIO was used in adsorption...
The phosphorous adsorption on a synthesized magnetic iron oxide (MIO) was conducted using a batchtype experiment. A dry-form MIO was used in adsorption...
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SubjectTerms Adsorption
Computer simulation
Desorption
Detaching
Equilibrium isotherm
Iron oxides
Isotherms
Magnetic iron oxide
Magnetite
Mathematical models
Phosphates
Phosphorus recovery
화학공학
Title Phosphorous adsorption on synthesized magnetite in wastewater
URI https://dx.doi.org/10.1016/j.jiec.2015.11.008
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Volume 34
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