Investigation of Pb(II) biosorption from aqueous media via Erwinin sp. isolated from the heavy metal-containing soils

This paper focuses on the potential application of Erwinin sp. in environmental purification. The Pb(II) biosorption was studied by batch method under different external environment (pH value, biosorption time, Erwinin sp. dosage, Pb(II) concentration and temperature). Batch experiments showed that...

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Veröffentlicht in:	Desalination and water treatment 2022-10, Vol.273, p.172-179
Hauptverfasser:	Liu, Lei, Zhao, Yuxin, Miao, Ziqi, Zhang, Binbin, Sun, Wenjuan, Wan, Hongzhi
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Sprache:	eng
Schlagworte:	Biosorption Erwinin sp Kinetic Pb(II) Thermodynamic
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container_title	Desalination and water treatment
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creator	Liu, Lei Zhao, Yuxin Miao, Ziqi Zhang, Binbin Sun, Wenjuan Wan, Hongzhi
description	This paper focuses on the potential application of Erwinin sp. in environmental purification. The Pb(II) biosorption was studied by batch method under different external environment (pH value, biosorption time, Erwinin sp. dosage, Pb(II) concentration and temperature). Batch experiments showed that Erwinin sp. could rapidly reach the biosorption equilibrium (90 min) of high capacity of Pb(II) biosorption (71.73 mg/g, T = 303 K) by Langmuir model. The interaction mechanism between Pb(II) and Erwinin sp. was investigated by TEM, XPS and FT-IR. Results of FT-IR and XPS showed that Erwinin sp. were rich in functional groups, which was the main reason for the effective Pb(II) removal. The Pb(II) biosorption was also studied by kinetic model and thermodynamic model. Pb(II) biosorption conforms to pseudo-second-order mode and is a spontaneous endothermic process. According to the above results, Erwinin sp. is a potential biosorbent for the treatment of lead pollution due to its wide source of biosorption materials, large biosorption capacity and high treatment efficiency.
doi_str_mv	10.5004/dwt.2022.28879
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subjects	Biosorption Erwinin sp Kinetic Pb(II) Thermodynamic
title	Investigation of Pb(II) biosorption from aqueous media via Erwinin sp. isolated from the heavy metal-containing soils
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