Sorption is a combination of physical and chemical processes by which the migration of radionuclides in the geosphere (and possibly from a radioactive waste repository) can be slowed down under certain conditions. The NEA Sorption Project was launched to study the potential of chemical thermodynamic models for improving representation of sorption phenomena in the long-term safety analysis of radioactive waste repositories.
The first phase of the project ran from 1997 to 1998 and focused on a workshop held in Oxford, U.K. in May 1997. Presentations at the Oxford workshop highlighted the advances that have been made in the field of sorption modelling with many illustrations of the successful interpretation of sorption phenomena in natural samples. A report on using thermodynamic sorption models for guiding the selection of radioelement distribution coefficient (Kd) was published in 2001.
The second phase of the project was launched in September 2000. It took the form of a benchmarking exercise to interpret well-characterised datasets for the sorption of radionuclides onto complex materials using several different modelling approaches employed by the various organisations participating in the project.
The following systems, of interest to the safety assessment of radioactive waste repositories, were considered:
These cases were selected to allow a number of aspects of the sorption models used by the participants to be tested:
The main outcomes and lessons of the Phase II Sorption Project were discussed by a wider audience of implementers, regulators and modellers at an international workshop in October 2005. The workshop provided an overview of the main project results, with emphasis on the merits and limitations of thermodynamic sorption models (TSMs) as well as recommendations on their use. A report on the main findings of Phase II of the Sorption Project had also been released, along with several publications in the open literature.
On the basis of the main results obtained and lessons learnt during Phase II, alongside the consensus reached during the workshop, the following needs were identified:
The third phase of the project was launched in November 2007 to address the needs identified during Phase II. At the end of the phase, a report in which the critical issues are treated in a way that will facilitate communication with waste management organisations and regulatory authorities was issued. A workshop to present and discuss the report was also held.
Using Thermodynamic Sorption Models for Guiding Radioelement Distribution Coefficient (Kd) Investigations - A Status Report (2001)
(Report on Phase I, including summaries of the Oxford workshop presentations)
Radioactive waste and
sorption in natural systems - NEA News article (2000)
(Role of sorption in the safety of radioactive waste repositories)
Last reviewed: 12 December 2013