Modeling transport of arsenic through modified granular natural siderite filters for arsenic removal

Modeling transport of arsenic through modified granular natural siderite filters for arsenic removal

Groundwater arsenic (As) contamination is a hot issue, which is severe health concern worldwide. Recently, many Fe-based adsorbents have been used for As removal from solutions. Modified granular natural siderite (MGNS), a special hybrid Fe(II)/Fe(III) system, had higher adsorption capacity for As(I...

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Main Authors: Fulan Li, Huaming Guo, Kai Zhao, Wei Xiu, Jiaxing Shen, Yi Chen
Format: Article
Language:English
Published: Elsevier 2019-09-01
Series:Geoscience Frontiers
Online Access:http://www.sciencedirect.com/science/article/pii/S1674987119300192
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spelling doaj-b9cfc87e93c249638642361559dcd33e2020-11-25T02:16:12ZengElsevierGeoscience Frontiers1674-98712019-09-0110517551764Modeling transport of arsenic through modified granular natural siderite filters for arsenic removalFulan Li0Huaming Guo1Kai Zhao2Wei Xiu3Jiaxing Shen4Yi Chen5State Key Laboratory of Biogeology and Environmental Geology, MOE Key Laboratory of Groundwater Circulation and Environment Evolution, China University of Geosciences (Beijing), Beijing 100083, China; School of Water Resources and Environment, China University of Geosciences (Beijing), Beijing 100083, ChinaState Key Laboratory of Biogeology and Environmental Geology, MOE Key Laboratory of Groundwater Circulation and Environment Evolution, China University of Geosciences (Beijing), Beijing 100083, China; School of Water Resources and Environment, China University of Geosciences (Beijing), Beijing 100083, China; Corresponding author. School of Water Resources and Environment, China University of Geosciences (Beijing), Beijing 100083, China. Fax: +86 10 8232 1081.China Institute for Geo-environmental Monitoring, Beijing 100081, ChinaState Key Laboratory of Biogeology and Environmental Geology, MOE Key Laboratory of Groundwater Circulation and Environment Evolution, China University of Geosciences (Beijing), Beijing 100083, China; School of Water Resources and Environment, China University of Geosciences (Beijing), Beijing 100083, ChinaState Key Laboratory of Biogeology and Environmental Geology, MOE Key Laboratory of Groundwater Circulation and Environment Evolution, China University of Geosciences (Beijing), Beijing 100083, China; School of Water Resources and Environment, China University of Geosciences (Beijing), Beijing 100083, ChinaSchool of Water Resources and Environment, China University of Geosciences (Beijing), Beijing 100083, ChinaGroundwater arsenic (As) contamination is a hot issue, which is severe health concern worldwide. Recently, many Fe-based adsorbents have been used for As removal from solutions. Modified granular natural siderite (MGNS), a special hybrid Fe(II)/Fe(III) system, had higher adsorption capacity for As(III) than As(V), but the feasibility of its application in treating high-As groundwater is still unclear. In combination with transport modeling, laboratory column studies and field pilot tests were performed to reveal both mechanisms and factors controlling As removal by MGNS-filled filters. Results show that weakly acid pH and discontinuous treatment enhanced As(III) removal, with a throughput of 8700 bed volumes (BV) of 1.0 mg/L As(III) water at breakthrough of 10 μg/L As at pH 6. Influent HCO3− inhibited As removal by the filters. Iron mineral species, SEM and XRD patterns of As-loading MGNS show that the important process contributing to high As(III) removal was the mineral transformation from siderite to goethite in the filter. The homogeneous surface diffusion modeling (HSDM) shows that competition between As(III) and HCO3− with adsorption sites on MGNS was negligible. The inhibition of HCO3− on As(III) removal was connected to inhibition of siderite dissolution and mineral transformation. Arsenic loadings were lower in field pilot tests than those in the laboratory experiments, showing that high concentrations of coexisting anions (especially HCO3− and SiO44−), high pH, low EBCT, and low groundwater temperature decreased As removal. It was suggested that acidification and aeration of high-As groundwater and discontinuous treatment would improve the MGNS filter performance of As removal from real high-As groundwater. Keywords: Arsenite (As), Adsorption, Mineral transformation, Column, Groundwaterhttp://www.sciencedirect.com/science/article/pii/S1674987119300192
collection DOAJ
language English
format Article
sources DOAJ
author Fulan Li
Huaming Guo
Kai Zhao
Wei Xiu
Jiaxing Shen
Yi Chen
spellingShingle Fulan Li
Huaming Guo
Kai Zhao
Wei Xiu
Jiaxing Shen
Yi Chen
Modeling transport of arsenic through modified granular natural siderite filters for arsenic removal
Geoscience Frontiers
author_facet Fulan Li
Huaming Guo
Kai Zhao
Wei Xiu
Jiaxing Shen
Yi Chen
author_sort Fulan Li
title Modeling transport of arsenic through modified granular natural siderite filters for arsenic removal
title_short Modeling transport of arsenic through modified granular natural siderite filters for arsenic removal
title_full Modeling transport of arsenic through modified granular natural siderite filters for arsenic removal
title_fullStr Modeling transport of arsenic through modified granular natural siderite filters for arsenic removal
title_full_unstemmed Modeling transport of arsenic through modified granular natural siderite filters for arsenic removal
title_sort modeling transport of arsenic through modified granular natural siderite filters for arsenic removal
publisher Elsevier
series Geoscience Frontiers
issn 1674-9871
publishDate 2019-09-01
description Groundwater arsenic (As) contamination is a hot issue, which is severe health concern worldwide. Recently, many Fe-based adsorbents have been used for As removal from solutions. Modified granular natural siderite (MGNS), a special hybrid Fe(II)/Fe(III) system, had higher adsorption capacity for As(III) than As(V), but the feasibility of its application in treating high-As groundwater is still unclear. In combination with transport modeling, laboratory column studies and field pilot tests were performed to reveal both mechanisms and factors controlling As removal by MGNS-filled filters. Results show that weakly acid pH and discontinuous treatment enhanced As(III) removal, with a throughput of 8700 bed volumes (BV) of 1.0 mg/L As(III) water at breakthrough of 10 μg/L As at pH 6. Influent HCO3− inhibited As removal by the filters. Iron mineral species, SEM and XRD patterns of As-loading MGNS show that the important process contributing to high As(III) removal was the mineral transformation from siderite to goethite in the filter. The homogeneous surface diffusion modeling (HSDM) shows that competition between As(III) and HCO3− with adsorption sites on MGNS was negligible. The inhibition of HCO3− on As(III) removal was connected to inhibition of siderite dissolution and mineral transformation. Arsenic loadings were lower in field pilot tests than those in the laboratory experiments, showing that high concentrations of coexisting anions (especially HCO3− and SiO44−), high pH, low EBCT, and low groundwater temperature decreased As removal. It was suggested that acidification and aeration of high-As groundwater and discontinuous treatment would improve the MGNS filter performance of As removal from real high-As groundwater. Keywords: Arsenite (As), Adsorption, Mineral transformation, Column, Groundwater
url http://www.sciencedirect.com/science/article/pii/S1674987119300192
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AT kaizhao modelingtransportofarsenicthroughmodifiedgranularnaturalsideritefiltersforarsenicremoval
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