Patent Number: 046876057
Section: claims

1. In an automated system of nuclear fuel rod production, the combination comprising: (a) a powder formulation and processing stage including  (b) a pellet fabrication stage including  (c) a pellet processing stage including  (v) means for receiving said loaded boats in a successive manner after discharged from said sintering furnaces for sampling at least one of said sintered pellets therein;  (vi) a plurality of pellet grinding units for grinding said sintered pellets to precise predetermined dimensions;  (vii) means for unloading sintered pellets from said boat on said conveying means in single file into said pellet grinding units;  (viii) a plurality of inspection units for inspecting said ground pellets;  (ix) a pellet storage and retrieval unit for receiving said inspected pellets and storing the same; and  (x) means for conveying said pellets in single file from said grinding units through said inspection unit to said storage and retrieval unit.  (a) a radioactive powder formulation and processing stage including  (b) a pellet fabrication stage including  (c) a pellet processing stage including  (d) a tube preparation stage including  (e) a fuel rod fabrication and inspection stage including  (a) a plurality of vaporization units for supplying a radioactive material in the form of a gas;  (b) a plurality of kiln units connected in flow communication with said vaporization units for receiving said gas from said vaporization units and converting said radioactive material from the form of said gas to the form of a powder, said plurality of kiln units being less in number than said plurality of vaporization units, one of said kiln units being connected with a pair of said vaporization units;  (c) a plurality of check hopper units being connected in flow communication with said kiln units for receiving said powder from said kiln units, for holding said powder for sampling and inspection and for dispensing said powder therefrom, said plurality of check hopper units being greater in number than said plurality of kiln units, a pair of said check hopper units being connected with one of said kiln units such that as at least one of said check hopper units of said pairs thereof is being filled from its respective one kiln unit, at least another of said check hopper units of said pairs thereof is dispensing its powder while the powder in at least still another of said check hopper units of said pairs thereof is being sampled whereby powder can be continuously dispensing from at least one of said check hopper units while in-line sampling of said powder is being carried out, each of said check hopper units being of a predetermined capacity less than geometric control of radioactive material;  (d) a plurality of blending units connected in flow communication with said check hopper units for receiving said powder from said check hopper units and for blending said powder into a radioactive composition suitable for use as nuclear reactor fuel, said plurality of blending units being fewer in number than said check hopper units and greater in number than said plurality of kiln units, said blending units each having a capacity which exceeds geometric control of the radioactive material but which maintains said material under moderation control; and  (e) valve means for causing the filling of one of said plurality of blending units at a time with powder from said check hopper units such that as one of said blending units is being filled, another of said blending units is being analyzed and yet another of said blending units is being dispensed whereby blended powder can be dispensed continuously from said blending units. 2. The automated system as recited in claim 1, said pellet processing state further including: 3. The automated system as recited in claim 2, wherein said pellet storage and retrieval unit contains sufficient capacity for storing said inspected pellets until needed in fuel rod fabrication. 4. In an automated system of nuclear fuel rod production, the combination comprising: 5. In an automated system of nuclear fuel rod production, a powder formulation and processing stage comprising the combination of: 6. The automated system as recited in claim 5 wherein said plurality of said blending units includes yet another blending unit containing blended powder which can be analyzed as said one of said blending units is being filled with powder and as blended powder is being dispensed from said another of said blending units.