Competitive adsorption and selectivity sequence of heavy metals by chicken bone-derived biochar: Batch and column experiment

Jong Hwan Park; Ju Sik Cho; Yong Sik Ok; Seong Heon Kim; Se Won Kang; Ik Won Choi; Jong Soo Heo; Ronald D. Delaune; Dong Cheol Seo

doi:10.1080/10934529.2015.1047680

Competitive adsorption and selectivity sequence of heavy metals by chicken bone-derived biochar: Batch and column experiment

Jong Hwan Park, Ju Sik Cho, Yong Sik Ok, Seong Heon Kim, Se Won Kang, Ik Won Choi, Jong Soo Heo, Ronald D. Delaune, Dong Cheol Seo

Research output: Contribution to journal › Article › peer-review

74 Citations (Scopus)

Abstract

The objective of this research was to evaluate adsorption of heavy metals in single- and ternary-metal forms onto chicken bone biochar (CBB). Competitive sorption of heavy metals by CBB has never been reported previously. The maximum adsorption capacities of metals by CBB were in the order of Cu (130 mg g^-1) > Cd (109 mg g^-1) > Zn (93 mg g^-1) in the single-metal adsorption isotherm and Cu (108 mg g^-1) >> Cd (54 mg g^-1) ≥ Zn (44 mg g^-1) in the ternary-metal adsorption isotherm. Cu was the most retained cation, whereas Zn could be easily exchanged and substituted by Cu. Batch experimental data best fit the Langmuir model rather than the Freundlich isotherms. In the column experiments, the total adsorbed amounts of the metals were in the following order of Cu (210 mg g^-1) > Cd (192 mg g^-1) > Zn (178) in single-metal conditions, and Cu (156) > Cd (123) > Zn (92) in ternary-metal conditions. Results from both the batch and column experiments indicate that competitive adsorption among metals increases the mobility of these metals. Especially, Zn in single-metal conditions lost it adsorption capacity most significantly. Based on the 3D simulation graphs of heavy metals, adsorption patterns under single adsorption condition were different than under competitive adsorption condition. Results from both the batch and column experiments show that competitive adsorption among metals increases the mobility of these metals. The maximum metal adsorption capacity of the metals in the column experiments was higher than that in the batch experiment indicating other metal retention mechanisms rather than adsorption may be involved. Therefore, both column and batch experiments are needed for estimating retention capacities and removal efficiencies of metals in CBB.

Original language	English
Pages (from-to)	1194-1204
Number of pages	11
Journal	Journal of Environmental Science and Health - Part A Toxic/Hazardous Substances and Environmental Engineering
Volume	50
Issue number	11
DOIs	https://doi.org/10.1080/10934529.2015.1047680
Publication status	Published - 2015 Sept 19
Externally published	Yes

Bibliographical note

Funding Information:
This work was supported by the National Research Foundation of Korea grant funded by the Korea Government (Ministry of Education, Science and Technology), [16] [2012R1A2A2A01015706, NRF-2014R1A1A2007515]. This work was also carried out with the support of “Cooperative Research Program for Agriculture Science & Technology Development (Project No. PJ011227042015)” by by Rural Development Administration, Republic of Korea.

Publisher Copyright:
Copyright © 2015 Taylor & Francis Group, LLC.

Keywords

Biochar
Freundlich isotherm
Langmuir isotherm
chicken bone
competitive adsorption
single-metal
ternary-metal
three-dimensional simulation

ASJC Scopus subject areas

Environmental Engineering

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10.1080/10934529.2015.1047680

Cite this

Park, J. H., Cho, J. S., Ok, Y. S., Kim, S. H., Kang, S. W., Choi, I. W., Heo, J. S., Delaune, R. D., & Seo, D. C. (2015). Competitive adsorption and selectivity sequence of heavy metals by chicken bone-derived biochar: Batch and column experiment. Journal of Environmental Science and Health - Part A Toxic/Hazardous Substances and Environmental Engineering, 50(11), 1194-1204. https://doi.org/10.1080/10934529.2015.1047680

Competitive adsorption and selectivity sequence of heavy metals by chicken bone-derived biochar: Batch and column experiment. / Park, Jong Hwan; Cho, Ju Sik; Ok, Yong Sik et al.
In: Journal of Environmental Science and Health - Part A Toxic/Hazardous Substances and Environmental Engineering, Vol. 50, No. 11, 19.09.2015, p. 1194-1204.

Research output: Contribution to journal › Article › peer-review

Park, JH, Cho, JS, Ok, YS, Kim, SH, Kang, SW, Choi, IW, Heo, JS, Delaune, RD & Seo, DC 2015, 'Competitive adsorption and selectivity sequence of heavy metals by chicken bone-derived biochar: Batch and column experiment', Journal of Environmental Science and Health - Part A Toxic/Hazardous Substances and Environmental Engineering, vol. 50, no. 11, pp. 1194-1204. https://doi.org/10.1080/10934529.2015.1047680

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abstract = "The objective of this research was to evaluate adsorption of heavy metals in single- and ternary-metal forms onto chicken bone biochar (CBB). Competitive sorption of heavy metals by CBB has never been reported previously. The maximum adsorption capacities of metals by CBB were in the order of Cu (130 mg g-1) > Cd (109 mg g-1) > Zn (93 mg g-1) in the single-metal adsorption isotherm and Cu (108 mg g-1) >> Cd (54 mg g-1) ≥ Zn (44 mg g-1) in the ternary-metal adsorption isotherm. Cu was the most retained cation, whereas Zn could be easily exchanged and substituted by Cu. Batch experimental data best fit the Langmuir model rather than the Freundlich isotherms. In the column experiments, the total adsorbed amounts of the metals were in the following order of Cu (210 mg g-1) > Cd (192 mg g-1) > Zn (178) in single-metal conditions, and Cu (156) > Cd (123) > Zn (92) in ternary-metal conditions. Results from both the batch and column experiments indicate that competitive adsorption among metals increases the mobility of these metals. Especially, Zn in single-metal conditions lost it adsorption capacity most significantly. Based on the 3D simulation graphs of heavy metals, adsorption patterns under single adsorption condition were different than under competitive adsorption condition. Results from both the batch and column experiments show that competitive adsorption among metals increases the mobility of these metals. The maximum metal adsorption capacity of the metals in the column experiments was higher than that in the batch experiment indicating other metal retention mechanisms rather than adsorption may be involved. Therefore, both column and batch experiments are needed for estimating retention capacities and removal efficiencies of metals in CBB.",

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author = "Park, {Jong Hwan} and Cho, {Ju Sik} and Ok, {Yong Sik} and Kim, {Seong Heon} and Kang, {Se Won} and Choi, {Ik Won} and Heo, {Jong Soo} and Delaune, {Ronald D.} and Seo, {Dong Cheol}",

note = "Funding Information: This work was supported by the National Research Foundation of Korea grant funded by the Korea Government (Ministry of Education, Science and Technology), [16] [2012R1A2A2A01015706, NRF-2014R1A1A2007515]. This work was also carried out with the support of “Cooperative Research Program for Agriculture Science & Technology Development (Project No. PJ011227042015)” by by Rural Development Administration, Republic of Korea. Publisher Copyright: Copyright {\textcopyright} 2015 Taylor & Francis Group, LLC.",

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AU - Park, Jong Hwan

AU - Cho, Ju Sik

AU - Ok, Yong Sik

AU - Kim, Seong Heon

AU - Kang, Se Won

AU - Choi, Ik Won

AU - Heo, Jong Soo

AU - Delaune, Ronald D.

AU - Seo, Dong Cheol

N1 - Funding Information: This work was supported by the National Research Foundation of Korea grant funded by the Korea Government (Ministry of Education, Science and Technology), [16] [2012R1A2A2A01015706, NRF-2014R1A1A2007515]. This work was also carried out with the support of “Cooperative Research Program for Agriculture Science & Technology Development (Project No. PJ011227042015)” by by Rural Development Administration, Republic of Korea. Publisher Copyright: Copyright © 2015 Taylor & Francis Group, LLC.

PY - 2015/9/19

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N2 - The objective of this research was to evaluate adsorption of heavy metals in single- and ternary-metal forms onto chicken bone biochar (CBB). Competitive sorption of heavy metals by CBB has never been reported previously. The maximum adsorption capacities of metals by CBB were in the order of Cu (130 mg g-1) > Cd (109 mg g-1) > Zn (93 mg g-1) in the single-metal adsorption isotherm and Cu (108 mg g-1) >> Cd (54 mg g-1) ≥ Zn (44 mg g-1) in the ternary-metal adsorption isotherm. Cu was the most retained cation, whereas Zn could be easily exchanged and substituted by Cu. Batch experimental data best fit the Langmuir model rather than the Freundlich isotherms. In the column experiments, the total adsorbed amounts of the metals were in the following order of Cu (210 mg g-1) > Cd (192 mg g-1) > Zn (178) in single-metal conditions, and Cu (156) > Cd (123) > Zn (92) in ternary-metal conditions. Results from both the batch and column experiments indicate that competitive adsorption among metals increases the mobility of these metals. Especially, Zn in single-metal conditions lost it adsorption capacity most significantly. Based on the 3D simulation graphs of heavy metals, adsorption patterns under single adsorption condition were different than under competitive adsorption condition. Results from both the batch and column experiments show that competitive adsorption among metals increases the mobility of these metals. The maximum metal adsorption capacity of the metals in the column experiments was higher than that in the batch experiment indicating other metal retention mechanisms rather than adsorption may be involved. Therefore, both column and batch experiments are needed for estimating retention capacities and removal efficiencies of metals in CBB.

AB - The objective of this research was to evaluate adsorption of heavy metals in single- and ternary-metal forms onto chicken bone biochar (CBB). Competitive sorption of heavy metals by CBB has never been reported previously. The maximum adsorption capacities of metals by CBB were in the order of Cu (130 mg g-1) > Cd (109 mg g-1) > Zn (93 mg g-1) in the single-metal adsorption isotherm and Cu (108 mg g-1) >> Cd (54 mg g-1) ≥ Zn (44 mg g-1) in the ternary-metal adsorption isotherm. Cu was the most retained cation, whereas Zn could be easily exchanged and substituted by Cu. Batch experimental data best fit the Langmuir model rather than the Freundlich isotherms. In the column experiments, the total adsorbed amounts of the metals were in the following order of Cu (210 mg g-1) > Cd (192 mg g-1) > Zn (178) in single-metal conditions, and Cu (156) > Cd (123) > Zn (92) in ternary-metal conditions. Results from both the batch and column experiments indicate that competitive adsorption among metals increases the mobility of these metals. Especially, Zn in single-metal conditions lost it adsorption capacity most significantly. Based on the 3D simulation graphs of heavy metals, adsorption patterns under single adsorption condition were different than under competitive adsorption condition. Results from both the batch and column experiments show that competitive adsorption among metals increases the mobility of these metals. The maximum metal adsorption capacity of the metals in the column experiments was higher than that in the batch experiment indicating other metal retention mechanisms rather than adsorption may be involved. Therefore, both column and batch experiments are needed for estimating retention capacities and removal efficiencies of metals in CBB.

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KW - ternary-metal

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Competitive adsorption and selectivity sequence of heavy metals by chicken bone-derived biochar: Batch and column experiment

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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