Patent Number: 048083372
Section: claims

1. A method of forming synthetic rock incorporating radioactive waste wherein precursor materials for the synthetic rock mixed with radioactive waste are placed in a metal canister, the wall of which includes a bellows like wall structure, the method comprising heating the canister and its contents and maintaining a sufficiently elevated temperature during the application of axial pressure to the canister to cause the formation of synthetic rock and the discharge of gases, and characterised by using a canister including a discharge duct connected to an exhaust gas processing system for discharging gases from within the canister. 2. The method according to claim 1, wherein upstream of the discharge duct a filter structure is provided within the canister and the filter structure retains good gas permeability at high temperature and prevents any solid material escaping from the canister during densification of material being compressed therein. 3. The method according to claim 2, wherein the filter structure comprises a cap-like structure having apertures therein and co-operating with a base end wall of the canister which has an aperture therein leading to the discharge duct, a cavity being defined between the aperture and the cap and incorporating a filter material whereby ingress of synthetic rock forming materials into the filter during compression of the canister is substantially avoided. 4. The method according to claim 1, wherein the discharge duct is in the form of a bore extending through a base end wall of the canister and terminating in a pipe adapted to be connected to a gas processing system. 5. The method according to claim 1, wherein the discharge duct is in the form of a slot-like recess in the bottom of a base end wall of the canister, the discharge duct is an operating position being closed by co-operation with an upper face of a pressure pad located on the hydraulic ram. 6. The method according to claim 1, wherein a cylindrical screen is provided confining the particulate material to a central zone of the canister and preventing the ingress of this material into the region of the convolutions of the bellows like structure in the cylindrical side wall. 7. The method according to claim 1, wherein the discharge duct terminates in a pipe which communicated with a gas extraction manifold and a suction is applied to enable reliable salvaging of all discharged gas. 8. The method according to claim 7, wherein the pipe is an L-shaped pipe fitting having a horizontal limb rotatably mounted in sealing engagement in the base end wall of the canister and connected to the discharge duct; an arm of the L-shaped pipe fitting extending at right angles to this horizontal limb is adapted to be rotated from an upwardly directed transport position to a downwardly directed location by pivotal action whereby an open tip of the pipe is inserted through a slot in a side wall of an upwardly directed tube which forms the manifold for the extraction system. 9. A method of forming synthetic rock incorporating radioactive waste wherein precursor materials for the synthetic rock mixed with radioactive waste are placed in a metal canister, the canister as being claimed in claim 1, the method comprising heating the canister and its contents and maintaining a sufficiently elevated temperature during the application of axial pressure to the canister to cause the formation of synthetic rock and the discharge of gases.