The efforts made by engineers to ensure that highly radioactive waste buried deep underground will rest in eternal peace are reminiscent of the ingenuity of the ancient Egyptians tasked with ensuring that the Pharaohs' tombs would be undisturbed. The term "repository" used to describe these large facilities clearly reflects this quest for permanence.
ANDRA video Presentation and history of the CIGEO project
Suitable geological formations are scarce resources that should be used to best effect. Rather than rejecting an essential solution, we should develop the means to reduce the volume of final waste requiring disposal. The legislative framework calls for research that will help us achieve this objective, by separating radioactive species, transmuting certain species and decreasing the weight of waste packages. If the goal of developing fast breeder reactors capable of burning plutonium is abandoned, stockpiled plutonium will have to be treated as waste. From a radioactive waste perspective, plutonium is a minor actinide. As spent reactor fuel contains 10 times more plutonium than minor actinides, several CIGEO repositories would be required to dispose of it all.
If the license is granted, the facility will be built in a 200 km² "transposition" area in the vicinity of the laboratory in Bure, in order benefit from the advantageous geological conditions. The task will be to identify a homogenous, fault-free volume of clay in the Callovo-Oxfordian, argillite rock formation approximately 500m underground. This volume should be of suitable size: approximately 2 km x 2 km and around 200 m thick.
The planned repository will be a very large facility extending over a surface area of several square kilometres. The underground facilities will consist of disposal cells excavated into the argillite formation, in which waste containers will be placed for disposal. These containers be waste packages like those currently produced at the plant in La Hague. There are currently no plans to modify existing waste packages.
ANDRA's projects feature two separate filling zones for the two categories of long-lived waste currently earmarked for disposal: high-level waste (HLW) and intermediate-level waste (ILW-LL). An additional zone would be required for spent fuel assemblies, if it was decided to bury them.
Waste is stored on a single level located in the middle of the Callovo-Oxfordian layer, thereby maximising the thickness of impermeable argillite above and below it. Disposal cells are blind tunnels, which will be sealed after being filled. The access shafts are grouped together, to one side. The filling areas and the general architecture of the facilities form a dead-end configuration. The disposal cells are arranged such that the temperature of the rock in contact with the cells does not exceed 100°C. As a result, the disposal cells containing high-level waste, which releases heat, are spaced out.
For safety reasons, the cells are grouped together in independent modules. This organisation facilitates the site's management and evolution. For example, one module may be filled while another is being built, taking advantage of previous experience. It should be borne in mind that building and filling such a facility is a process that will take decades, during which time technological progress may prompt changes to the nature and volumes of waste buried. The requirement for reversible disposal written into French law goes beyond the mere possibility of retrieving waste for a certain period. It also enshrines the principle of progressive, flexible management, leaving future generations free to make their own decisions.
Disposal cells will be sealed when they are closed. Trials using bentonite to seal cells are currently underway. Bentonite is a type of clay that swells upon contact with water. As it swells, the bentonite will exert pressure against the tunnel walls, helping to fill voids and plug cracks in the rock.
- Virtual tour of the research laboratory in Bure (the virtual tour provides an overview of the laboratory using real-life images, as well as an introduction to the research carried out there): view video
TO KNOW MORE ABOUT A CIGEO PUBLIC DEBATE:
- 1) : CIGEO Public Debate (2013)
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