Biosorption of cadmium(II) from aqueous solutions by industrial fungus Rhizopus cohnii

An important filamentous industrial fungus, Rhizopus cohnii ( R. cohnii), was used as an efficient biosorbent for removing cadmium from wastewater. The sorption conditions, such as pH, the dose of biomass and the initial concentration of cadmium were examined. Two kinds of adsorption models were app...

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Published inTransactions of Nonferrous Metals Society of China Vol. 20; no. 6; pp. 1104 - 1111
Main Authors LUO, Jin-ming, XIAO, Xiao, LUO, sheng-lian
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2010
Faculty of Life Science and Technology, Central South University of Forestry and Technology,Changsha 410004, China%College of Environmental Science and Engineering, Hunan University, Changsha 410082, China
Key Laboratory of Environmental Biology and Pollution Control of Ministry of Education, Hunan University,Changsha 410082, China%State Key Laboratory of Chemo/Biosensing and Chemometrics, Hunan University, Changsha 410082, China
Subjects
biosorbent
biosorption
cadmium
Rhizopus
Rhizopus cohnii
Rhizopus cohnii
cadmium
biosorbent
biosorption
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Abstract An important filamentous industrial fungus, Rhizopus cohnii ( R. cohnii), was used as an efficient biosorbent for removing cadmium from wastewater. The sorption conditions, such as pH, the dose of biomass and the initial concentration of cadmium were examined. Two kinds of adsorption models were applied to simulate the biosorption data. The uptake of cadmium was higher in weak acid condition than in strong acid condition. Nearly no sorption of cadmium occurred when the pH value was lower than 2.0. Biosorption isothermal data could be well simulated by both Langmuir and Freundlich models. Langmuir simulation of the biosorption showed that the maximum uptake of cadmium was 40.5 mg/g (0.36 mmol/g) in the optimal conditions, which was higher than many other adsorbents, including biosorbents and activated carbon. In addition, the reusability results showed that after five times of sorption and desorption process, the sorption capacity of R. cohnii could still maintain nearly 80%, confirming its practical application in cadmium treatment. Fourier transform infrared spectrum revealed that carboxyl, amino and hydroxyl groups on biosorbent R. cohnii surface were responsible for the biosorption of cadmium.
AbstractList An important filamentous industrial fungus, Rhizopus cohnii (R. cohnii), was used as an efficient biosorbent for removing cadmium from wastewater. The sorption conditions, such as pH, the dose of biomass and the initial concentration of cadmium were examined. Two kinds of adsorption models were applied to simulate the biosorption data. The uptake of cadmium was higher in weak acid condition than in strong acid condition. Nearly no sorption of cadmium occurred when the pH value was lower than 2.0. Biosorption isothermal data could be well simulated by both Langmuir and Freundlich models. Langmuir simulation of the biosorption showed that the maximum uptake of cadmium was 40.5 mg/g (0.36 mmol/g) in the optimal conditions, which was higher than many other adsorbents, including biosorbents and activated carbon. In addition, the reusability results showed that after five times of sorption and desorption process, the sorption capacity of R. cohnii could still maintain nearly 80%, confirming its practical application in cadmium treatment. Fourier transform infrared spectrum revealed that carboxyl, amino and hydroxyl groups on biosorbent R. cohnii surface were responsible for the biosorption of cadmium.
TF8; An important filamentous industrial fungus, Rhizopus cohnii (R. cohnii), was used as an efficient biosorbent for removing cadmium from wastewater. The sorption conditions, such as pH, the dose of biomass and the initial concentration of cadmium were examined. Two kinds of adsorption models were applied to simulate the biosorption data. The uptake of cadmium was higher in weak acid condition than in strong acid condition. Nearly no sorption of cadmium occurred when the pH value was lower than 2.0. Biosorption isothermal data could be well simulated by both Langmuir and Freundlich models. Langmuir simulation of the biosorption showed that the maximum uptake of cadmium was 40.5 mg/g (0.36 mmol/g) in the optimal conditions, which was higher than many other adsorbents, including biosorbents and activated carbon. In addition, the reusability results showed that after five times of sorption and desorption process, the sorption capacity of R. cohnii could still maintain nearly 80%, confirming its practical application in cadmium treatment. Fourier transform infrared spectrum revealed that carboxyl, amino and hydroxyl groups on biosorbent R. cohnii surface were responsible for the biosorption of cadmium.
An important filamentous industrial fungus, Rhizopus cohnii ( R. cohnii), was used as an efficient biosorbent for removing cadmium from wastewater. The sorption conditions, such as pH, the dose of biomass and the initial concentration of cadmium were examined. Two kinds of adsorption models were applied to simulate the biosorption data. The uptake of cadmium was higher in weak acid condition than in strong acid condition. Nearly no sorption of cadmium occurred when the pH value was lower than 2.0. Biosorption isothermal data could be well simulated by both Langmuir and Freundlich models. Langmuir simulation of the biosorption showed that the maximum uptake of cadmium was 40.5 mg/g (0.36 mmol/g) in the optimal conditions, which was higher than many other adsorbents, including biosorbents and activated carbon. In addition, the reusability results showed that after five times of sorption and desorption process, the sorption capacity of R. cohnii could still maintain nearly 80%, confirming its practical application in cadmium treatment. Fourier transform infrared spectrum revealed that carboxyl, amino and hydroxyl groups on biosorbent R. cohnii surface were responsible for the biosorption of cadmium.
Author LUO, Jin-ming
LUO, sheng-lian
XIAO, Xiao
AuthorAffiliation Faculty of Life Science and Technology, Central South University of Forestry and Technology,Changsha 410004, China%College of Environmental Science and Engineering, Hunan University, Changsha 410082, China; Key Laboratory of Environmental Biology and Pollution Control of Ministry of Education, Hunan University,Changsha 410082, China%State Key Laboratory of Chemo/Biosensing and Chemometrics, Hunan University, Changsha 410082, China
AuthorAffiliation_xml – name: Faculty of Life Science and Technology, Central South University of Forestry and Technology,Changsha 410004, China%College of Environmental Science and Engineering, Hunan University, Changsha 410082, China; Key Laboratory of Environmental Biology and Pollution Control of Ministry of Education, Hunan University,Changsha 410082, China%State Key Laboratory of Chemo/Biosensing and Chemometrics, Hunan University, Changsha 410082, China
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Keywords Rhizopus cohnii
cadmium
biosorbent
biosorption
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Snippet An important filamentous industrial fungus, Rhizopus cohnii ( R. cohnii), was used as an efficient biosorbent for removing cadmium from wastewater. The...
An important filamentous industrial fungus, Rhizopus cohnii (R. cohnii), was used as an efficient biosorbent for removing cadmium from wastewater. The sorption...
TF8; An important filamentous industrial fungus, Rhizopus cohnii (R. cohnii), was used as an efficient biosorbent for removing cadmium from wastewater. The...
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SubjectTerms biosorbent
biosorption
cadmium
Rhizopus
Rhizopus cohnii
Title Biosorption of cadmium(II) from aqueous solutions by industrial fungus Rhizopus cohnii
URI https://dx.doi.org/10.1016/S1003-6326(09)60264-8
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