Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systems

Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systems

It is of great interest to explore effective approaches to overcome the stress of heavy metals and achieve simultaneous enhanced acetate production and heavy metal removal in the biocathodes of microbial electrosynthesis (MES) systems. Herein, the magnetic field and the loaded Fe3O4 were employed to...

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Bibliographic Details
Main Authors: Xia Hou, Liping Huang
Format: Article
Language:English
Published: Elsevier 2020-10-01
Series:Chemical Engineering Journal Advances
Subjects:
Magnetite
Magnetic field
Microbial electrosynthesis
Acetate production
Cr(VI) removal
c-type cytochromes
Online Access:http://www.sciencedirect.com/science/article/pii/S2666821120300193
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spelling doaj-15050c6389bd430190560c785084169b2021-04-22T13:41:45ZengElsevierChemical Engineering Journal Advances2666-82112020-10-012100019Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systemsXia Hou0Liping Huang1Key Laboratory of Industrial Ecology and Environmental Engineering, Ministry of Education (MOE), School of Environmental Science and Technology, Dalian University of Technology, Dalian 116024, ChinaCorresponding authors.; Key Laboratory of Industrial Ecology and Environmental Engineering, Ministry of Education (MOE), School of Environmental Science and Technology, Dalian University of Technology, Dalian 116024, ChinaIt is of great interest to explore effective approaches to overcome the stress of heavy metals and achieve simultaneous enhanced acetate production and heavy metal removal in the biocathodes of microbial electrosynthesis (MES) systems. Herein, the magnetic field and the loaded Fe3O4 were employed to synergetically improve both acetate production and Cr(VI) removal in the Serratia marcescens Q1 catalyzed cathode of MES. This was accomplished via increase in the circuital current and the S. marcescens release of different amounts and components of extracellular polymeric substances dominantly harboring of outer membrane c-type cytochromes, reaching 2.6 ± 0.1 mg/L/h (acetate production) and 2.3 ± 0.1 mg/L/h (Cr(VI) removal) at a circuital current of 1.4 ± 0.0 A/m2. These values were 4.2-fold (acetate production), 1.3-time (Cr(VI) removal) and 2.2-fold (circuital current) of those in the absence of magnetic field and Fe3O4. Increasing initial Cr(VI) from 60 mg/L to 120 mg/L similarly achieved more acetate production (3.3–4.2 folds) and higher circuital current (2.1–2.2 folds) than those at a Cr(VI) of 60 mg/L in the absence of magnetic field and Fe3O4, confirming the positive influential magnetic field and loaded Fe3O4 for efficient system performance at these high levels of Cr(VI). This study provides an alternative and environmentally benign approach for achieving simultaneous efficient acetate production and Cr(VI) removal, opening up the feasibility of sustainable treatment of heavy metals-contaminated organics-barren waters and wastewaters.http://www.sciencedirect.com/science/article/pii/S2666821120300193MagnetiteMagnetic fieldMicrobial electrosynthesisAcetate productionCr(VI) removalc-type cytochromes
collection DOAJ
language English
format Article
sources DOAJ
author Xia Hou
Liping Huang
spellingShingle Xia Hou
Liping Huang
Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systems
Chemical Engineering Journal Advances
Magnetite
Magnetic field
Microbial electrosynthesis
Acetate production
Cr(VI) removal
c-type cytochromes
author_facet Xia Hou
Liping Huang
author_sort Xia Hou
title Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systems
title_short Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systems
title_full Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systems
title_fullStr Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systems
title_full_unstemmed Synergetic magnetic field and loaded Fe3O4 for simultaneous efficient acetate production and Cr(VI) removal in microbial electrosynthesis systems
title_sort synergetic magnetic field and loaded fe3o4 for simultaneous efficient acetate production and cr(vi) removal in microbial electrosynthesis systems
publisher Elsevier
series Chemical Engineering Journal Advances
issn 2666-8211
publishDate 2020-10-01
description It is of great interest to explore effective approaches to overcome the stress of heavy metals and achieve simultaneous enhanced acetate production and heavy metal removal in the biocathodes of microbial electrosynthesis (MES) systems. Herein, the magnetic field and the loaded Fe3O4 were employed to synergetically improve both acetate production and Cr(VI) removal in the Serratia marcescens Q1 catalyzed cathode of MES. This was accomplished via increase in the circuital current and the S. marcescens release of different amounts and components of extracellular polymeric substances dominantly harboring of outer membrane c-type cytochromes, reaching 2.6 ± 0.1 mg/L/h (acetate production) and 2.3 ± 0.1 mg/L/h (Cr(VI) removal) at a circuital current of 1.4 ± 0.0 A/m2. These values were 4.2-fold (acetate production), 1.3-time (Cr(VI) removal) and 2.2-fold (circuital current) of those in the absence of magnetic field and Fe3O4. Increasing initial Cr(VI) from 60 mg/L to 120 mg/L similarly achieved more acetate production (3.3–4.2 folds) and higher circuital current (2.1–2.2 folds) than those at a Cr(VI) of 60 mg/L in the absence of magnetic field and Fe3O4, confirming the positive influential magnetic field and loaded Fe3O4 for efficient system performance at these high levels of Cr(VI). This study provides an alternative and environmentally benign approach for achieving simultaneous efficient acetate production and Cr(VI) removal, opening up the feasibility of sustainable treatment of heavy metals-contaminated organics-barren waters and wastewaters.
topic Magnetite
Magnetic field
Microbial electrosynthesis
Acetate production
Cr(VI) removal
c-type cytochromes
url http://www.sciencedirect.com/science/article/pii/S2666821120300193
work_keys_str_mv AT xiahou synergeticmagneticfieldandloadedfe3o4forsimultaneousefficientacetateproductionandcrviremovalinmicrobialelectrosynthesissystems
AT lipinghuang synergeticmagneticfieldandloadedfe3o4forsimultaneousefficientacetateproductionandcrviremovalinmicrobialelectrosynthesissystems
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