Claims
- 1. A system for storage and encapsulation of radioactive particulate waste, comprising:
- a cartridge having a liquid impervious casing enclosing a waste storage region, a ferromagnetic waste storage matrix housed in said cartridge and occupying at least a major portion of the waste storage region, and an inlet conduit and at least one outlet conduit projecting from said cartridge and communicating with the waste storage region;
- means for establishing a magnetic field in said matrix;
- fluid handling means including a source of liquid containing the radioactive waste to be stored in said cartridge, a source of encapsulating material, and a receptacle for receiving flushing water;
- cartridge filling means including a plurality of conduits releasably couplable to said conduits associated with said cartridge; and
- fluid flow control means including a plurality of remotely controllable valves connected between said fluid handling means and said cartridge filling means, said fluid flow control means having a first operating state for supplying liquid containing the radioactive waste, from said source thereof to said inlet conduit for loading said matrix with radioactive waste, while placing one said outlet conduit in communication with said receptacle, and said fluid flow control means having a second operating state for supplying encapsulating material from said source thereof to said inlet conduit for filling said cartridge with encapsulating material, while permitting air in said cartridge to be expelled via one said outlet conduit.
- 2. A system as defined in claim 1 wherein said cartridge has first and second outlet conduits, said cartridge filling means is movable between a first operating position associated with the first operating state of said fluid flow control means and a second operating position associated with the second operating state of said fluid flow control means, said conduits of said cartridge filling means are grouped into a first set of conduits releasably couplable to said conduits associated with said cartridge when said cartridge filling means are in the first operating position, and a second set of conduits releasably couplable to said conduits associated with said cartridge when said cartridge filling means are in the second operating position, said one outlet conduit which is placed in communication with said receptacle is said first outlet conduit, and said one outlet conduit via which air is permitted to be expelled when said fluid flow control means is in the second operating state is said second outlet conduit.
- 3. A system as defined in claim 2 wherein one said conduit of said cartridge filling means is common to both said sets, and the movement of said cartridge filling means between its first and second operating positions is effected by pivoting said cartridge filling means about the axis of said one conduit.
- 4. A system as defined in claim 3 wherein said one conduit which is common to both said sets of conduits is positioned to be releasably couplable to said second outlet conduit associated with said cartridge.
- 5. A system as defined in claim 3 wherein said cartridge filling means comprise:
- a turret carrying said plurality of conduits; a column supporting said turret; a loading head constituted by a cylindrical housing having a closed upper end and an open lower end, with said column extending through said closed upper end; and locking means mounted in said housing for locking said cartridge to said lower end of said housing while establishing a sealed connection between said cartridge and said housing.
- 6. A system as defined in claim 5 further comprising means supporting said column from said housing for permitting pivoting movement of said column about the axis of said one conduit between the first and second operating positions, and for displacing said column in the direction of the axis of said one conduit relative to said loading head between a raised position in which said conduits of said cartridge filling means are separated from said conduits associated with said cartridge, and a lowered, or coupled, position in which a respective set of said conduits of said cartridge filling means are coupled in a sealed manner to said conduits associated with said cartridge.
- 7. A system as defined in claim 1 wherein said cartridge is formed to present a liquid reservoir at its upper end, and further comprising a siphon tube mounted to be introduced into said reservoir when conduits of said cartridge filling means are coupled to said conduits associated with said cartridge, and means coupled to said siphon tube for aspirating any liquid present in said reservoir.
- 8. A system as defined in claim 1 in combination with a nuclear reactor system comprising at least one backflush filter, and means connecting said backflush filter to said source of liquid containing the radioactive waste and said receptacle for conducting flushing water from said receptacle to said backflush filter and liquid containing radioactive waste from said backflush filter to said source of liquid.
- 9. A method for operating the system defined in claim 2 for loading said matrix with particulate radioactive waste and encapsulating the waste with encapsulating material, comprising:
- placing said cartridge filling means in the first operating position and coupling said first set of conduits in a sealed manner to said conduits associated with said cartridge;
- operating said establishing means for establishing a magnetic field in said matrix;
- while said first set of conduits is coupled to said conduits associated with said cartridge, effecting loading of waste material by operating said fluid flow control means for blocking said second outlet conduit and supplying liquid containing the radioactive waste via said inlet conduit to said waste storage region until said matrix is loaded with waste while conducting liquid from said waste storage region via said first outlet conduit to said receptacle;
- after said step of effecting loading of waste material, decoupling said first set of conduits from said conduits associated with said cartridge, placing said cartridge filling means in the second operating position, and coupling said second set of conduits in a sealed manner to said conduits associated with said cartridge; and
- while said second set of conduits is coupled to said conduits associated with said cartridge, effecting encapsulation of the waste material by operating said fluid flow control means for blocking said first outlet conduit, and supplying encapsulating material via said inlet conduit until said waste storage region is filled with encapsulating material, while removing air from said waste storage region via said second outlet conduit.
- 10. A method as defined in claim 9 further comprising, during said step of effecting encapsulation: monitoring said second outlet conduit and producing an indication of the presence of an encapsulating material therein; and terminating the supplying of encapsulating material via said inlet conduit upon appearance of such indication.
- 11. A method as defined in claim 9 further comprising delivering flushing water from said receptacle to a backflushable filter in which radioactive waste is temporarily stored; and conducting liquid containing the radioactive waste from the filter to said source thereof for delivery to said cartridge.
- 12. A system as defined in claim 1 further comprising: a conveyor for conveying said cartridge along a path extending below said means for establishing a magnetic field; means couplable to said cartridge for moving said cartridge vertically between a lowered position in which said cartridge is supported by said conveyor and a raised position in which said matrix is disposed in the magnetic field; and means supporting said cartridge filling means for vertical movement into a position in which selected conduits of said filling means are coupled to said conduits of said cartridge when said cartridge is in its raised position.
- 13. A system as defined in claim 12 wherein said means supporting said cartridge filling means are pivotable between a first operating position associated with the first operating state of said fluid flow control means and a second operating position associated with the second operating state of said fluid flow control means.
- 14. A method as defined in claim 9 further comprising, after said step of effectuating encapsulation, decoupling said conduits associated with said cartridge filling means from said conduits associated with said cartridge lowering said cartridge onto a conveyor below said means for establishing a magnetic field, and conveying said cartridge away from said means for establishing a magnetic field by means of the conveyor.
Parent Case Info
This is a division of application Ser. No. 06/547,293, filed Oct. 28, 1983, now U.S. Pat. No. 4,623,510.
US Referenced Citations (8)
Foreign Referenced Citations (1)
Number |
Date |
Country |
54-134300 |
Oct 1979 |
JPX |
Divisions (1)
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Number |
Date |
Country |
Parent |
547293 |
Oct 1983 |
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