Patent Number: 053944488
Section: claims

1. A method for processing elements activated by irradiation with a view to their removal, the activated elements comprising two constituents having different magnetic characteristics, a first one of said constituents having a high activity and a second one of said constituents having a substantially lower activity, said method comprising the steps of: (a) grinding the activated elements to obtain unit fragments, comprising first fragments consisting mainly of said first constituent and second fragments consisting mainly of said second constituent;  (b) separating said first fragments consisting mainly of said first constituent and sending said first fragments by magnetic means to a first discharge and storage station, and separating second fragments consisting mainly of said second constituent and sending said second fragments by magnetic means to a continuous handling means;  (c) continuously detecting by radioactivity measurement whether first fragments consisting mainly of said first constituent are present among said second fragments on said continuous handling means; and  (d) sending said second fragments deposited on said continuous handling means to a second discharge and storage station if no first fragment of said first constituent is detected on said continuous handling means, and to said first discharge and storage station if at least one fragment of said first constituent is detected on said continuous handling means.  (a) a grinding mill;  (b) means for removing a product in divided form at an output of said grinding mill;  (c) a magnetic separator having an input part communicating with a removal means of said grinding mill in order to feed it and first and second output paths for said product in divided form;  (d) a first storage and removal means into which said first output path of the separator emerges;  (e) a continuous handling means with two directions of motion, comprising a first end arranged below said second output path of said separator and above said first storage and removal means;  (f) a radioactivity detector arranged in proximity to said continuous handling means and connected to a control unit of said continuous handling means; and  (g) a second storage and removal means arranged below a second end of said continuous handling means to receive divided products discharged by said continuous handling means in a first direction of motion. 2. A method according to claim 1, wherein the elements activated by irradiation are jackets of fuel elements of a reactor of the graphite/gas type, which consist of a tubular graphite element and of stainless steel wires implanted in the graphite element, and wherein grinding of the tubular graphite elements is carried out to obtain pieces of graphite and segments of stainless steel wires. 3. A method according to claim 2, comprising collecting the segments of stainless steel wires separated from the pieces of graphite in a high-integrity container. 4. A device for removing elements activated by irradiation, said device comprising 5. A device according to claim 4, wherein said grinding mill is an impeller-disk mill. 6. A device according to claim 4 or 5, wherein said magnetic separator is a high-intensity roller separator comprising permanent magnets based on rare earths. 7. A device according to claim 6, wherein said magnetic separator comprises two separation stages. 8. A device according to claim 4, wherein said radioactivity detector is a scintillation detector. 9. A device according to claim 4, wherein at least one of said first storage and removal means and of said second storage and removal means comprises a hopper, a hatch body arranged under an outlet opening of said hopper, an element for closing said hopper, a transport and storage container comprising a leaktight closure element, means for transporting and lifting said container into an opening of said hatch body and means for moving closure elements of the hopper and of said container by sliding inside said hatch body, so as to selectively isolate and bring into communication said hopper and said container in lifted and engaged position inside said opening of said hatch body.