Functionalized magnetic particles for water treatment

Christian Baresel; Vincent Schaller; Christian Jonasson; Christer Johansson; Romain Bordes; Vinay Chauhan; Abhilash Sugunan; Jens Sommertune; Sebastian Welling

Heliyon (Aug 2019)

Functionalized magnetic particles for water treatment

Christian Baresel,
Vincent Schaller,
Christian Jonasson,
Christer Johansson,
Romain Bordes,
Vinay Chauhan,
Abhilash Sugunan,
Jens Sommertune,
Sebastian Welling

Affiliations

Christian Baresel: IVL Swedish Environmental Research Institute AB, Box 210 60, Stockholm, 100 31, Sweden; Corresponding author.
Vincent Schaller: RISE Acreo, Arvid Hedvalls Backe 4, Gothenburg, Sweden
Christian Jonasson: RISE Acreo, Arvid Hedvalls Backe 4, Gothenburg, Sweden
Christer Johansson: RISE Acreo, Arvid Hedvalls Backe 4, Gothenburg, Sweden
Romain Bordes: Department of Chemistry and Chemical Engineering, Chalmers University of Technology, Gothenburg, Sweden
Vinay Chauhan: Department of Chemistry and Chemical Engineering, Chalmers University of Technology, Gothenburg, Sweden
Abhilash Sugunan: RISE Surface, Process and Formulation, Box 5607, Stockholm, SE-114 86, Sweden
Jens Sommertune: RISE Surface, Process and Formulation, Box 5607, Stockholm, SE-114 86, Sweden
Sebastian Welling: IVL Swedish Environmental Research Institute AB, Box 210 60, Stockholm, 100 31, Sweden

Journal volume & issue: Vol. 5, no. 8
p. e02325

Abstract

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In this study, we have taken the concept of water treatment by functionalized magnetic particles one step forward by integrating the technology into a complete proof of concept, which included the preparation of surface modified beads, their use as highly selective absorbents for heavy metals ions (Zinc, Nickel), and their performance in terms of magnetic separation. The separation characteristics were studied both through experiments and by simulations. The data gathered from these experimental works enabled the elaboration of various scenarios for Life Cycle Analysis (LCA). The LCA showed that the environmental impact of the system is highly dependent on the recovery rate of the magnetic particles. The absolute impact on climate change varied significantly among the scenarios studied and the recovery rates. The results support the hypothesis that chelation specificity, magnetic separation and bead recovery should be optimized to specific targets and applications.

Published in Heliyon

ISSN: 2405-8440 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Science: Science (General); Social Sciences: Social sciences (General)
Website: https://www.cell.com/heliyon/home

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