KOSEN 한인과학기술자네트워크

Part 1 : Performance Assessment Summary from the NEA Sorption Forum Part 2 : Using Thermodynamic Sorption Models for Guiding Radioelement Distribution Coefficient (Kd) Investigations for Performance Assessment - A Status Report ㅇ PA requirements for Kd values ㅇ Thermodynamic sorption models ㅇ TSM-based strategy for estimating Kd for repository migration fields ㅇ State of the art in TSM-guided Kd studies of natural materials Part 3 : International Meeting on Chemical Modelling of Sorption in the Field of Radioactive Waste Management (6-6 May 1997, Oxford, UK) 1.1 Sorption in performance assessment the Nirex Perspective 1.2 Kd and performance assessment : A reviewer's point of view 2. Not available 3.1 Acquisition of sorption data for the Nirex performance assessment 3.2 On the application coefficients and mechanistic sorption models in performance assessments for repositories in crystalline rock 3.3 A mechanistic descrption of Ni sorption on Na-Montmorillonite 3.4 A PNC approach to increase confidence in sorption coefficents for near-field performance 3.5 An approach to provide a sorption database for performance assessment 3.6 Uranium sorption studies within the Koongarra Natural Analogue Project 3.7 Determination of radionuclides migration parameters in a clay formation : The Belgian Approach 3.8 Application of a laboratory-derived surface complexation model for Zinc 4.1 Proposal for the development of predictive surface complexation models (SCM) 4.2 Characterisation of natural substrates with regard to application of surface complexation models 4.3 Sorption modeling for performance assessment at the center for nuclear waste regulatory analyses 4.4 Development of a mechanistic model of sorption of uranium, plutonium and thorium onto aluminium oxide, muscovite and chlorite 4.8 A summary of sorption investigations performed on behalf of the UK regulator of radioactive waste disposal 4.9 Dolomite surface chemistry an actinide retention 4.10 Uranium transport modeling under variable chemical conditions using the surface complexation concept 4.11 Sorption of thorium onto titaniumdioxide 4.12 Sorption of uranium onto phyllite 4.13 Ni sorption by a natural sand 4.14 A model for radinuclide sorption onto cementitious surfaces 4.15 Application of thermodynamic sorption models to distribution coefficients of radionuclides in bentonite 4.16 Sorption of Europium onto illite : mechanistic interpretations 4.17 Modelling of sorption of U-species, HCO₃^1- and CO₃^2- on bentonite 4.18 Comments on the use of Kd doefficient ofr the modelling of radionuclide migration in porous media 4.19 Not available. 4.20 Ion exchange case 4.21 Modelling of radionuclides sorption on mixed solids using single oxides surface complexation models 4.22 Adsorption of metals and organic acids to kaolinite surfaces