Your search keyword '"Marmier N"' showing total 3 results

1. Minerals as additives for decreasing the toxicity of Mediterranean contaminated dredged sediments.

Author

Mamindy-Pajany, Y., Galgani, F., Roméo, M., Hurel, C., and Marmier, N.

Subjects

CONTAMINATED sediments, TOXICITY testing, BIOLOGICAL assay, MINERALS, HEMATITE, IRON & the environment, ZEOLITES, MARINE ecology

Abstract

The management of dredged sediments is a priority issue in the Mediterranean sea where sediments are historically polluted. The aims of this study were to evaluate the toxicity of port sediment samples and the effect of three mineral additives (hematite, zerovalent iron (ZVI) and natural zeolite (NZ)) on sediment elutriate toxicity. Four sediments (A, B, C and D) were provided by port authorities after composting procedure; particle size, particulate organic carbon, metals and organic pollutants (TBT, PAHs, PCBs) were determined in whole sediments. Elutriates from these composted sediments were analyzed by determining toxicity level using oyster (Crassostrea gigas) larvae bioassay, metal and dissolved organic carbon concentrations. Toxicity, measured on undiluted elutriates (250g/L), decreased as follows: A≥B>C∼D. The treatment of sediments with mineral additives (5%) revealed that hematite tends to decrease the elutriate toxicity in all samples, particularly in samples B and C. This effect may be related to metal concentration decrease in elutriates, in particular Cu and Zn, that have a significant toxic effect on oyster larvae. ZVI and NZ have a variable influence on elutriate toxicity. Results suggest that hematite may be a possible candidate for decreasing chemical concentration and improving the quality of elutriates. Hematite could be used for sediment stabilization prior to the deposit in a specific site or landfill. [Copyright &y& Elsevier]

Published

2010

2. Sorption behaviour of caesium on a bentonite sample

Author

Hurel, C., Marmier, N., Sèby, F., Giffaut, E., Bourg, A. C. M., and Fromage, F.

Abstract

Sorption of elements like Cs on clay is one of the principal processes delaying their release from deep repositories of nuclear wastes into the environment. The sorption processes taking place between non-purified natural clay material (bentonite) and synthetic groundwater (containing Ca, Mg, Na, K and carbonates) were therefore studied experimentally and modelled for Cs to determine whether thermodynamic computer codes capable of predicting the behaviour of this element in natural systems might be developed. The model used, based on the properties of a pure montmorillonite phase, incorporates the surface reactions for natural major ions and sorbing cations but does not have any adjustable parameters. The weight of each parameters used in the model is assessed. Surface reactions are classified as either major or minor, and a simplified model of Cs sorption that considers only the major processes is proposed. This simplified model might correspond to the less sophisticated thermodynamic model included in coupled geochemistry-transport models.

Published

2002

3. Sorption of Iodine and Cesium on Some Mineral Oxide Colloids

Author

Hakem, N., Fourest, B., Guillaumont, R., and Marmier, N.

Published

1996