A Comparative Study of the Speciation and Behaviour of Plutonium in the Marine Environment of Two Reprocessing Plants

Boust, D.; Mitchell, P.I.; Garcia, Karine O.; Condren, O.M.; Vintró, Luis León; Leclerc, G.

doi:10.1524/ract.1996.74.special-issue.203

Cited by 26 publications

(19 citation statements)

References 14 publications

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“…The Colloidal and Suspended load compartments represent the fractions of plutonium dispersed in the water column (presumably as Pu 4þ ) as colloids (nano-particles and macromolecules in the 1 nm to 1 mm size range) or particles in suspension (operationally defined as those removable by 0.45 mm pore size membrane filtration). Finally, the Far field compartment represents the plutonium that is removed from the Sellafield coastal area through the processes of advection and dispersion, based on knowledge of the mean residence time of the plutonium in the area (Boust et al, 1996).…”

Section: Interactions Within the Water Columnmentioning

confidence: 99%

“…This is a complex series of reactions which has been fully described in Vives i Batlle (1993) but which can be modelled simplistically as a simple two-way flow 'reaction', based on data from Boust et al (1996). From Seawater_Pu_III_IV, (a) removal to the far field, (b) chemical oxidation of Pu (III, IV) to Pu (V, VI), and physical adsorption onto (c) colloidal matter, (d) suspended load and (e) surface sediment.…”

Section: Interactions Within the Water Columnmentioning

confidence: 99%

“…The mean residence time of plutonium in seawater in the Sellafield area is 29 days (Boust et al, 1996).…”

Section: Compartment Volume and Flushing Timementioning

confidence: 99%

“…Therefore, the partitioning of plutonium between particulate and filterable forms should not have changed to any large extent throughout the period of EARP commissioning. Boust et al (1996) studied the oxidation of Pu (IV) tracer in seawater over a 30-day period, during which an oxidised phase Pu (V, VI) began to form. To deduce the reaction rates for Pu (III, IV) 4 Pu (V, VI), Boust et al (1996) data (Figure 1 of that publication) were extracted and a simple two-way flow model between two compartments (oxidised and reduced) was found to fit well with this information (r 2 ¼ 0.986, p ¼ 0.006).…”

Section: Plutonium Speciation At Dischargementioning

confidence: 99%

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A process-based model for the partitioning of soluble, suspended particulate and bed sediment fractions of plutonium and caesium in the eastern Irish Sea

Batlle¹,

Bryan²,

McDonald³

2008

Journal of Environmental Radioactivity

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Section: Interactions Within the Water Columnmentioning

confidence: 99%

Section: Interactions Within the Water Columnmentioning

confidence: 99%

“…The mean residence time of plutonium in seawater in the Sellafield area is 29 days (Boust et al, 1996).…”

Section: Compartment Volume and Flushing Timementioning

confidence: 99%

Section: Plutonium Speciation At Dischargementioning

confidence: 99%

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A process-based model for the partitioning of soluble, suspended particulate and bed sediment fractions of plutonium and caesium in the eastern Irish Sea

Batlle¹,

Bryan²,

McDonald³

2008

Journal of Environmental Radioactivity

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“…Most of the so-called conservative radionuclides are advected northwards and leave the Irish Sea via the North Channel [2], with a smaller proportion being dispersed southwards to the English Channel approaches [3]. In contrast, radionuclides having a strong affinity for sediment particles are quickly removed from the water column by scavenging processes [4][5][6] onto suspended particulate matter, and accumulate in fine-grain deposits. In the eastern Irish Sea, muddy sediments are confined to the Cumbrian Mud Patch, a large offshore mudflat lying parallel to the Cumbrian coast, off Sellafield, which acts as a very efficient sink for particle-reactive radionuclides, such as transuranics.…”

Section: Introductionmentioning

confidence: 99%

Diagenetic reactivity of the plutonium in marine anoxic sediments (Cumbrian mud patch - eastern Irish Sea)

et al. 2005

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Abstract. An extensive diagenetic study carried out on a sediment core collected in the Cumbrian mud patch off the Sellafield nuclear reprocessing plant, is presented. Sequential leaching data, using a thoroughly validated protocol specifically designed to prevent any resorption of the released plutonium in the course of the extraction, demonstrate that a significant proportion of the plutonium is loosely bound to sites that readily exchange with seawater, oxidise upon oxygenated water contact (reactive sulphides) or easily dissolve upon changes in pH. Such a result contradicts many previous sequential extraction studies which have reported that little of the plutonium in Irish Sea sediments is in a readily available form. The profile of dissolved plutonium in pore waters indicates an active uptake process at depth, probably linked to sulphide (Acid Volatile Sulphide) precipitation. These reactive sulphides are liable to act as source of plutonium to the overlying water if they are brought close the interface by bioturbation or in contact with oxygenated seawater by burrowing activity.

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Speciation of Radionuclides in the Environment

Salbu

2000

Encyclopedia of Analytical Chemistry

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To obtain information on physicochemical forms of radionuclides in the environment, speciation techniques should be applied in situ, at‐site or in laboratories shortly after sample collection. Among speciation techniques for radionuclides in waters, combined in situ ultrafiltration and exchange chromatography are most promising as radionuclides species are fractionated with respect to nominal molecular mass and change properties simultaneously. However, the fractionation and characterization of chemically well‐defined low molecular mass (LMM) species in waters is still a challenge. Surface analytical techniques (e.g. electron microscopy) are useful for characterizing colloids and particles with respect to structure and radionuclide distribution. Recent development within synchrotron‐based X‐ray microbeam techniques allows detailed information of crystallographic structure (micro‐X‐ray diffraction (μ‐XRD)), oxidation states (micro‐X‐ray absorption near‐edge spectroscopy (μ‐XANES)) and volume distribution (μ‐XANES tomography) of particle‐associated radionuclides on the micrometer scale. Information on radionuclides reversibly or irreversibly associated with solid surfaces (binding mechanisms) is attained by different extraction techniques, while dynamic tracer experiments can provide information on the kinetics involved.

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A Comparative Study of the Speciation and Behaviour of Plutonium in the Marine Environment of Two Reprocessing Plants

Cited by 26 publications

References 14 publications

A process-based model for the partitioning of soluble, suspended particulate and bed sediment fractions of plutonium and caesium in the eastern Irish Sea

A process-based model for the partitioning of soluble, suspended particulate and bed sediment fractions of plutonium and caesium in the eastern Irish Sea

Diagenetic reactivity of the plutonium in marine anoxic sediments (Cumbrian mud patch - eastern Irish Sea)

Speciation of Radionuclides in the Environment

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