The influence of sediment properties and experimental variables on the efficiency of electrodialytic removal of metals from sediment

Pedersen, Kristine B.; Lejon, Tore; Jensen, Pernille Erland; Ottosen, Lisbeth M.

doi:10.1016/j.jece.2017.10.031

Cited by 11 publications

(4 citation statements)

References 41 publications

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“…With the help of the Pearson correlation analysis between the heavy metal content in the sediment and the physical-chemical factors under different experimental conditions, we found that pH has a positive effect on the content of most heavy metals in the sediments of still water (Table 3). In general, the heavy metals can achieve high desorption from the sediment at low pH values (Pedersen et al 2017;Adenuga et al 2019;Kobayashi et al 2020). In our experiment, the sedimentary environment is more acidic than the overlying water environment (the pH column in Figure 8 was below the polygonal line).…”

Section: Characteristics Of Heavy Metals In Riverbed Sediments Under Different Circumstances Of the Perturbation Experimentsmentioning

confidence: 64%

Adsorption and migration of heavy metals between sediments and overlying water in the Xinhe River in central China

Zhao

Yang

Dai

et al. 2021

Water Science and Technology

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Long-term polluted rivers often lead to the accumulation of heavy metals in sediments. Anthropogenic activities or biological disturbances break the adsorption balance, causing them to return from the bottom mud to the overlying water and change the aquatic environment. In order to understand the variation of heavy metals between sediments and river water, we collected the riverbed sediments in the polluted Xinhe River and carried out static continuous infiltration and dynamic uninterrupted disturbance experiments. The leaching experiment shows that the absorbability of Cd and Pb is stronger than Cr in the sediment; at the same time, the properties of the medium have a great influence on the adsorption of heavy metals. The disturbance can prompt heavy metals in the sediment to resuspend into the overlying water. The impact is the greatest during the first 12 h, and the influence degree is stronger in the relatively static water than in the moving river. In addition, pH and other factors have different degrees of influence on the desorption of heavy metals.

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Section: Characteristics Of Heavy Metals In Riverbed Sediments Under Different Circumstances Of the Perturbation Experimentsmentioning

confidence: 64%

Adsorption and migration of heavy metals between sediments and overlying water in the Xinhe River in central China

Zhao

Yang

Dai

et al. 2021

Water Science and Technology

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“…It is, however, evident that a much longer treatment would be needed to dissolve all calcium carbonate in the two carbonaceous sediments and obtain a pH drop similar to the one observed for the Raadvad sediment, which is likely to be required to obtain further heavy-metal remediation. Buffer capacity has indeed been mentioned in numerous earlier works as a decisive parameter for the remediation time also when treating other types of materials such as soil fines and harbor sediment [29,30]. Some reduction of the organic matter content was observed for the Raadvad stack-experiment, while not for any of the other experiments, indicating that the dissolution of organic matter occurs only at low pH and is not induced by the current in itself.…”

Section: Sediment Value For Soil Amendment Purposesmentioning

confidence: 64%

“…The feasibility of electrodialytic remediation (EDR) of sludge contaminated by heavy metals when suspended in an aqueous solution was documented earlier for other types of sediments and sludge, e.g., by removal of Cu, Pb, and Zn from harbor sediments [9,10] and extraction of P, Cd, Cu, Cr, Pb, Zn, Ni from wastewater sludge [11]. Only few studies were, however, made on freshwater sediments: Virkutyte and Sillanapää [12] showed that hindering the development of an alkaline front by use of a cation exchange membrane (i.e.…”

Section: Introductionmentioning

confidence: 93%

Electrodialytic Remediation of Toxic Elements and P Recovery from Sediments of Eutrophic Fresh-Waters in 3-Compartment Batch and Stack Setup

Jensen

Kirkelund

Fritt-Rasmussen

et al. 2022

Waste Biomass Valor

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“…Ribeiro et al 66 Velizarova et al 83 Removal of Cu from a real soil sampled at a wood preservation site in presence of different types of construction refuse in the soil on ED Pedersen et al 69 Ribeiro et al 87 Remediation of MSWI fly ash Ottosen et al 92 (1) Guedes et al 93 (2) Ottosen et al 78 (3) wileyonlinelibrary.com/jctb Pedersen et al 94,95 Options for application: a to treat the solid as stationary or b to treat the solid as a suspension.…”

Section: Overview Of Current Situation Of Lib Recycling Processesmentioning

confidence: 99%

Electrodialytic processes in solid matrices. New insights into battery recycling. A review

Villén-Guzmán

Arhoun

Vereda‐Alonso

et al. 2019

J of Chemical Tech & Biotech

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Electrodialytic remediation has been widely applied to the recovery of different contaminants from numerous solid matrices, solving emerging issues of environmental concern. Results and conclusions reported in studies about real contaminated matrices are summarized in this work. The influence of pH value on the treatment effectiveness has been widely proved, highlighting the phenomenon of ‘water splitting’ in the membrane surface. This dissociation of water molecules is related to the ‘limiting current’ which it is desirable to exceed at the anion exchange membrane in order to produce the entering of protons toward the solid matrix. Other important parameters for the optimization of the technique, such as the current density and the liquid/solid ratio, are also discussed through the revision of studies using real solid matrices. This work also focuses on the pioneer proposal of electrokinetic technologies for the recycling of lithium ion batteries, considering the relevance of waste properties in the design and optimization of the technique. From a thorough literature revision, it could be concluded that further experimental results are needed to allow an optimal application of the technique to the rising problem of residues from batteries. The main aim of this work is to take the first steps in the recovery of valuable metals such as Li and Co from spent batteries, incorporating principles of green chemistry. © 2019 Society of Chemical Industry

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The influence of sediment properties and experimental variables on the efficiency of electrodialytic removal of metals from sediment

Cited by 11 publications

References 41 publications

Adsorption and migration of heavy metals between sediments and overlying water in the Xinhe River in central China

Adsorption and migration of heavy metals between sediments and overlying water in the Xinhe River in central China

Electrodialytic Remediation of Toxic Elements and P Recovery from Sediments of Eutrophic Fresh-Waters in 3-Compartment Batch and Stack Setup

Electrodialytic processes in solid matrices. New insights into battery recycling. A review

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