Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbent

Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbent

Mechanism of Cr(VI) bio-removal from mine drainage was studied using a native fungal isolate. The Cr(VI) tolerant species, from chromite mining at Sukinda mine water fungus characterized as Aspergillus fumigatus Fresenius was applied after inactivation in an autoclave, to optimize the parameters of...

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Main Authors: Biswaranjan Dhal, Abhilash, Banshi Dhar Pandey
Format: Article
Language:English
Published: BMC 2018-11-01
Series:Sustainable Environment Research
Online Access:http://www.sciencedirect.com/science/article/pii/S2468203917304168
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spelling doaj-b14466a193bd4d638c13188ded6f743e2020-11-25T02:12:51ZengBMCSustainable Environment Research2468-20392018-11-01286289297Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbentBiswaranjan Dhal0 Abhilash1Banshi Dhar Pandey2Corresponding author.; Metal Extraction and Forming Division, CSIR-National Metallurgical Laboratory, Jamshedpur 831007, IndiaMetal Extraction and Forming Division, CSIR-National Metallurgical Laboratory, Jamshedpur 831007, IndiaMetal Extraction and Forming Division, CSIR-National Metallurgical Laboratory, Jamshedpur 831007, IndiaMechanism of Cr(VI) bio-removal from mine drainage was studied using a native fungal isolate. The Cr(VI) tolerant species, from chromite mining at Sukinda mine water fungus characterized as Aspergillus fumigatus Fresenius was applied after inactivation in an autoclave, to optimize the parameters of biosorption. Maximum uptake of 48.2 mg Cr(VI) g−1 of inactivated biomass at pH 5.5, 35 °C and 1% sorbent/solution (w/v) ratio was obtained (> 96% sorption) in 120 h from 50 mg L−1 Cr(VI) solution. The chemisorption mechanism involved the functional groups of treated biomass which was elucidated by the Fourier-transform infrared spectroscopy, X-ray powder diffraction (XRD) and Scanning Electron Microscopy with Energy Dispersive Spectroscopy studies. The XRD phase analysis of the biosorbed material confirmed the limited reduction of Cr(VI) to Cr(III) unlike previous studies. Actual mine drainage containing Cr(VI) and Co(II) was treated with the fungal biomass and was effectively eluted with 0.5 M HCl solution. The study demonstrates the potential application of native fungal isolate to remediate Cr(VI) from the chromite mine drainage. Keywords: Chromite ore, Mine drainage, Hexavalent chromium, A. fumigatus Fresenius, Biosorptionhttp://www.sciencedirect.com/science/article/pii/S2468203917304168
collection DOAJ
language English
format Article
sources DOAJ
author Biswaranjan Dhal
Abhilash
Banshi Dhar Pandey
spellingShingle Biswaranjan Dhal
Abhilash
Banshi Dhar Pandey
Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbent
Sustainable Environment Research
author_facet Biswaranjan Dhal
Abhilash
Banshi Dhar Pandey
author_sort Biswaranjan Dhal
title Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbent
title_short Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbent
title_full Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbent
title_fullStr Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbent
title_full_unstemmed Mechanism elucidation and adsorbent characterization for removal of Cr(VI) by native fungal adsorbent
title_sort mechanism elucidation and adsorbent characterization for removal of cr(vi) by native fungal adsorbent
publisher BMC
series Sustainable Environment Research
issn 2468-2039
publishDate 2018-11-01
description Mechanism of Cr(VI) bio-removal from mine drainage was studied using a native fungal isolate. The Cr(VI) tolerant species, from chromite mining at Sukinda mine water fungus characterized as Aspergillus fumigatus Fresenius was applied after inactivation in an autoclave, to optimize the parameters of biosorption. Maximum uptake of 48.2 mg Cr(VI) g−1 of inactivated biomass at pH 5.5, 35 °C and 1% sorbent/solution (w/v) ratio was obtained (> 96% sorption) in 120 h from 50 mg L−1 Cr(VI) solution. The chemisorption mechanism involved the functional groups of treated biomass which was elucidated by the Fourier-transform infrared spectroscopy, X-ray powder diffraction (XRD) and Scanning Electron Microscopy with Energy Dispersive Spectroscopy studies. The XRD phase analysis of the biosorbed material confirmed the limited reduction of Cr(VI) to Cr(III) unlike previous studies. Actual mine drainage containing Cr(VI) and Co(II) was treated with the fungal biomass and was effectively eluted with 0.5 M HCl solution. The study demonstrates the potential application of native fungal isolate to remediate Cr(VI) from the chromite mine drainage. Keywords: Chromite ore, Mine drainage, Hexavalent chromium, A. fumigatus Fresenius, Biosorption
url http://www.sciencedirect.com/science/article/pii/S2468203917304168
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AT abhilash mechanismelucidationandadsorbentcharacterizationforremovalofcrvibynativefungaladsorbent
AT banshidharpandey mechanismelucidationandadsorbentcharacterizationforremovalofcrvibynativefungaladsorbent
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