Effect of Fulvic Acid Surface Coatings on Plutonium Sorption and Desorption Kinetics on Goethite

Tinnacher, Ruth M.; Begg, James D.; Mason, Harris E.; Ranville, James F.; Powell, Brian A.; Wong, Jennifer C.; Kersting, Annie B.; Zavarin, Mavrik

doi:10.1021/es505120s

Cited by 33 publications

(23 citation statements)

References 49 publications

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“…Phosphate removal reached a plateau when organic acids concentration was above 100 mg TOC/L. It indicated negligible sites were occupied at low organic acids level and adsorptive sites were not limited for phosphate adsorption (Tinnacher et al, 2015). However, at higher concentration, organic acids of small molecular size, e.g.…”

Section: Characterization Of the Fresh And Preloaded Hzo-201mentioning

confidence: 99%

Effects of organic acids of different molecular size on phosphate removal by HZO-201 nanocomposite

et al. 2017

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Various organic acids in wastewater effluent could significantly influence the performance of phosphate adsorbent. This study focused on the effects of organic acids of different-molecular-size on phosphate adsorption by a novel nanocomposite HZO-201. Three organic acids (gallic acid (GA), tannic acid (TA) and humic acid (HA)) with distinct molecular size (HA > TA > GA) were chosen for this purpose. Both isotherm and kinetic tests of phosphate adsorption were conducted in the single-phosphate and binary system, and a series of microscopic techniques (i.e., XPS, FT-IR and SEM-EDX) and N adsorption-desorption test were employed to explore the underlying mechanism. It was found that GA could greatly weaken phosphate adsorption capability of HZO-201 by directly competing for ammonium group on the nanocomposite, TA exhibited significant inhibition on phosphate adsorption rate mainly through pore constriction/blockage, while HA posed negligible impact on phosphate adsorption because of the size exclusion effect. It was also observed that although GA, TA and HA showed substantial influence on bulky HZO due to complexation, their impact on the nano-HZO loaded inside HZO-201 was little. The covalently bounded ammonium group and the networking pore structure of HZO-201 may play important roles in it.

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Section: Characterization Of the Fresh And Preloaded Hzo-201mentioning

confidence: 99%

Effects of organic acids of different molecular size on phosphate removal by HZO-201 nanocomposite

et al. 2017

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“…Yang et al [52] found that the association HA and ZnO enhanced the U(VI) desorption, while HA-SiO 2 or HA-hydrous ferric oxide interactions inhibited U(VI) desorption. Tinnacher et al [53] reported that fulvic acid coated on goethite surface decreased Pu(IV) desorption. The different interaction between HA and minerals might control the desorption of radionuclides from colloidal suspensions, and thereby affected the physicochemical behavior of radionuclides in the natural environment.…”

Section: Effect Of Hamentioning

confidence: 99%

Interaction mechanism of radionickel on Na-montmorillonite: Influences of pH, electrolyte cations, humic acid and temperature

Wang

Chen

et al. 2016

Chemical Engineering Journal

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“…Thus, sorbed Pu (IV) can be remobilized as soluble and labile Pu (V) species, which then increase Pu transport and biouptake in aquatic ecosystems (Kaplan et al, 2004;Xu et al, 2014). In addition to the oxidative dissolution of Pu (IV), interactions with naturally-occurring organic matter have critical implications on its sorption and desorption kinetics in the subsurface water environments (Tinnacher et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Evidence of plutonium bioavailability in pristine freshwaters of a karst system of the Swiss Jura Mountains

Cusnir

Christl

Steinmann

et al. 2017

Geochimica et Cosmochimica Acta

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The interaction of trace environmental plutonium with dissolved natural organic matter (NOM) plays an important role on its mobility and bioavailability in freshwater environments. Here we explore the speciation and biogeochemical behavior of Pu in freshwaters of the karst system in the Swiss Jura Mountains. Chemical extraction and ultrafiltration methods were complemented by diffusive gradients in thin films technique (DGT) to measure the dissolved and bioavailable Pu fraction in water. Accelerator mass spectrometry (AMS) was used to accurately determine Pu in this pristine environment. Selective adsorption of Pu (III, IV) on silica gel showed that 88 % of Pu in the mineral water is found in +V oxidation state, possibly in a highly soluble [PuO 2 + (CO 3) n ] mform. Ultrafiltration experiments at 10 kDa yielded a similar fraction of colloid-bound Pu in the organic-rich and in mineral water (18 % to 25%). We also found that the concentrations of Pu measured by DGT in mineral water are similar to the bulk concentration, suggesting that dissolved Pu is readily available for biouptake. Sequential elution (SE) of Pu from aquatic plants revealed important co-precipitation of potentially labile Pu (60 to 75 %) with calcite fraction within outer compartment of the plants. Hence, we suggest that plutonium is fully available for biological uptake in both mineral and organic-rich karstic freshwaters.

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Effect of Fulvic Acid Surface Coatings on Plutonium Sorption and Desorption Kinetics on Goethite

Cited by 33 publications

References 49 publications

Effects of organic acids of different molecular size on phosphate removal by HZO-201 nanocomposite

Effects of organic acids of different molecular size on phosphate removal by HZO-201 nanocomposite

Interaction mechanism of radionickel on Na-montmorillonite: Influences of pH, electrolyte cations, humic acid and temperature

Evidence of plutonium bioavailability in pristine freshwaters of a karst system of the Swiss Jura Mountains

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