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Modelling of a large-scale in-situ migration experiment with 14C-labelled natural organic matter in Boom Clay

  • E. Martens , Norbert Maes , E. Weetjens , M. Van Gompel and L. Van Ravestyn
Published/Copyright: November 23, 2010
Radiochimica Acta
From the journal Volume 98 Issue 9-11

Abstract

For the assessment of the long-term safety of a geological disposal of high- and intermediate-level radioactive waste and/or spent fuel in the Boom Clay, a better understanding of the migration behaviour of Natural Organic Matter (NOM) is needed because it can act as a carrier molecule for radionuclides. Therefore, an in-situ migration experiment with 14C-labelled NOM was performed to study the NOM migration behaviour on a large scale (m), on the long-term (>10 a) and in directions parallel and perpendicular to the bedding plane (transport anisotropy). The numerical modelling tool HYDRUS2D/3D was used to interpret the results. The model was built stepwise, testing the influence of advection, (non-)linear equilibrium sorption, colloid attachment/detachment and anisotropy. The up scaling of previously determined parameters from small scale lab tests was also tested. A classic diffusion-advection-retardation description, using parameter values in the range of those obtained in the lab tests, provided already reasonable results. Inclusion of a colloid filtration term in the model significantly improved the simulation. Finally, the model was successfully tested against a second dataset and the anisotropy of the Boom clay was brought into account.

Keywords: Organic matter; Boom Clay; Transport modelling; Colloidal transport
* Correspondence address: SCK CEN, Waste and Disposal Department, Boeretang 200, B 2400 Mol, Belgien,
Published Online: 2010-11-23
Published in Print: 2010-11

© by Oldenbourg Wissenschaftsverlag, Mol, Germany

Articles in the same Issue

  1. Preface
  2. Solubility of tetravalent actinides in alkaline CaCl2 solutions and formation of Ca4[An(OH)8]4+ complexes: A study of Np(IV) and Pu(IV) under reducing conditions and the systematic trend in the An(IV) series
  3. Solubility of triuranyl diphosphate tetrahydrate (TDT) and Na autunite at 23 and 50 °C
  4. Effect of reduction on the stability of Pu(VI) hydrolysis species
  5. Retention and redox behaviour of uranium(VI) by siderite (FeCO3)
  6. Neptunium(V) complexation by natural pyoverdins and related model compounds
  7. Complexation of Nd(III) with tetraborate ion and its effect on actinide(III) solubility in WIPP brine
  8. Complexation of Tc(IV) with acetate at varying ionic strengths
  9. Uranyl photochemistry: decarboxylation of gluconic acid
  10. Influence of Boom Clay organic matter on the adsorption of Eu3+ by illite – geochemical modelling using the component additivity approach
  11. The role of green rust in the migration of radionuclides: An overview of processes that can control mobility of radioactive elements in the environment using as examples Np, Se and Cr
  12. A comparative batch sorption and time-resolved laser fluorescence spectroscopy study on the sorption of Eu(III) and Cm(III) on synthetic and natural kaolinite
  13. U(VI) sorption on granite: prediction and experiments
  14. Quantum chemical study of inner-sphere complexes of trivalent lanthanide and actinide ions on the corundum (0001) surface
  15. Quantum chemical modeling of uranyl adsorption on mineral surfaces
  16. Interaction of PuO2 thin films with water
  17. Molecular interactions of plutonium(VI) with synthetic manganese-substituted goethite
  18. Chlorine speciation in nuclear graphite: consequences on temperature release and on leaching
  19. Chemical status of U(VI) in cemented waste forms under saline conditions
  20. Influence of iron redox transformations on plutonium sorption to sediments
  21. Modelling of a large-scale in-situ migration experiment with 14C-labelled natural organic matter in Boom Clay
  22. Sorption and diffusion of Eu in sedimentary rock in the presence of humic substance
  23. Diffusion and sorption of neptunium(V) in compacted montmorillonite: effects of carbonate and salinity
  24. Uranium(VI) diffusion in low-permeability subsurface materials
  25. Distribution of Cs and Am in the solution-bentonite colloids-granite ternary system: effect of addition order and sorption reversibility
  26. Mechanisms of plutonium sorption to mineral oxide surfaces: new insights with implications for colloid-enhanced migration
  27. Understanding uranium behaviour at the Askola uranium mineralization
https://doi.org/10.1524/ract.2010.1770
Keywords for this article
Organic matter; Boom Clay; Transport modelling; Colloidal transport

Articles in the same Issue

  1. Preface
  2. Solubility of tetravalent actinides in alkaline CaCl2 solutions and formation of Ca4[An(OH)8]4+ complexes: A study of Np(IV) and Pu(IV) under reducing conditions and the systematic trend in the An(IV) series
  3. Solubility of triuranyl diphosphate tetrahydrate (TDT) and Na autunite at 23 and 50 °C
  4. Effect of reduction on the stability of Pu(VI) hydrolysis species
  5. Retention and redox behaviour of uranium(VI) by siderite (FeCO3)
  6. Neptunium(V) complexation by natural pyoverdins and related model compounds
  7. Complexation of Nd(III) with tetraborate ion and its effect on actinide(III) solubility in WIPP brine
  8. Complexation of Tc(IV) with acetate at varying ionic strengths
  9. Uranyl photochemistry: decarboxylation of gluconic acid
  10. Influence of Boom Clay organic matter on the adsorption of Eu3+ by illite – geochemical modelling using the component additivity approach
  11. The role of green rust in the migration of radionuclides: An overview of processes that can control mobility of radioactive elements in the environment using as examples Np, Se and Cr
  12. A comparative batch sorption and time-resolved laser fluorescence spectroscopy study on the sorption of Eu(III) and Cm(III) on synthetic and natural kaolinite
  13. U(VI) sorption on granite: prediction and experiments
  14. Quantum chemical study of inner-sphere complexes of trivalent lanthanide and actinide ions on the corundum (0001) surface
  15. Quantum chemical modeling of uranyl adsorption on mineral surfaces
  16. Interaction of PuO2 thin films with water
  17. Molecular interactions of plutonium(VI) with synthetic manganese-substituted goethite
  18. Chlorine speciation in nuclear graphite: consequences on temperature release and on leaching
  19. Chemical status of U(VI) in cemented waste forms under saline conditions
  20. Influence of iron redox transformations on plutonium sorption to sediments
  21. Modelling of a large-scale in-situ migration experiment with 14C-labelled natural organic matter in Boom Clay
  22. Sorption and diffusion of Eu in sedimentary rock in the presence of humic substance
  23. Diffusion and sorption of neptunium(V) in compacted montmorillonite: effects of carbonate and salinity
  24. Uranium(VI) diffusion in low-permeability subsurface materials
  25. Distribution of Cs and Am in the solution-bentonite colloids-granite ternary system: effect of addition order and sorption reversibility
  26. Mechanisms of plutonium sorption to mineral oxide surfaces: new insights with implications for colloid-enhanced migration
  27. Understanding uranium behaviour at the Askola uranium mineralization
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