Patent Number: 048329010
Section: claims

1. A method for straightening a bent mixing vane of a grid in a fuel cell of a nuclear reactor, comprising: (a) introducing a member having means movable between a first open position and a second closed position, into the fuel cell with the means in the second closed position and being below the grid with the bent mixing vane;  (b) moving the means into the first open position; and  (c) partially withdrawing the member axially from the fuel cell such that the means contacts and straightens the bent mixing vane and carries a reaction load to the grid.  (d) moving the means into the second closed position.  (e) extracting the member from the fuel cell.  (f) detecting that the mixing vane is straightened.  (a) introducing a member having a first means movable between a first open position and a second closed position, and actuatable second means for moving the first movable means between the first and second positions, into the fuel cell with the first means in the second closed position and being below the grid with the bent mixing vane;  (b) actuating the second means to move the first means into the first open position; and  (c) partially withdrawing the member axially from the fuel cell such that the first means contacts and straightens the bent mixing vane and carries a reaction load to the grid.  (d) actuating the second means to move the first means into the second closed position.  (e) extracting the member from the fuel cell.  (f) remotely detecting that the mixing vane is straightened.  (a) remotely detecting that the mixing vane is bent;  (b) introducing a member having a means movable between a first open position and a second closed position, and actuatable second means for moving the first movable means between the first and second positions, into the fuel cell with the first means in the second closed position and being below the grid with the bent mixing vane;  (c) actuating the second means to move the first means into the first open position; and  (d) partially withdrawing the member from the fuel cell such that the first means contacts and straightens the bent mixing vane, wherein the step of remotely detecting includes the substeps of:  (a) introducing a member having means movable between a first open position and a second closed position, and actuatable second means for moving the first movable means between the first and second positions, into the fuel cell with the first means in the second closed position and being below the grid with the bent mixing vane;  (b) actuating the second means to move the first means into the first open position;  (c) partially withdrawing the member from the fuel cell such that the first means contacts and straightens the bent mixing vane; and  (d) monitoring and raising load on the member, wherein steps (c) and (d) are performed contemporaneously.  (a) introducing a member having means movable between a first open position and a second closed position, into the external fuel cell with the means in the second closed position and being below the grid with the bent mixing vane;  (b) moving the means into the first open position;  (c) partially withdrawing the member from the grid while monitoring and raising load on the member such that the means contacts and straightens the bent mixing vane;  (d) reducing the load on the member to static weight thereof;  (e) slightly lowering the member;  (f) moving the means into the second closed position; and  (g) extracting the member from the fuel cell. 2. The method as recited in claim 1, wherein step (a) is preceded by the step of remotely detecting that the mixing vane is bent. 3. The method as recited in claim 1, wherein step (c) is followed by the step of: 4. The method as recited in claim 3, wherein step (d) is followed by the step of: 5. The method as recited in claim 4, wherein step (e) is followed by the step of: 6. A method for straightening a bent mixing vane of a grid in a fuel cell of a nuclear reactor, comprising: 7. The method as recited in claim 6, wherein step (c) is followed by the step of: 8. The method as recited in claim 7, wherein step (d) is followed by the step of: 9. The method as recited in claim 8, wherein step (e) is followed by the step of: 10. The method as recited in claim 6, wherein step (a) is preceded by the step of remotely detecting that the mixing vane is bent. 11. A method for straightening a bent mixing vane of a grid in a fuel cell of a nuclear reactor, comprising: 12. A method for straightening a bent mixing vane of a grid in a fuel cell of a nuclear reactor, comprising: 13. A method for straightening a bent mixing vane of a grid in an external fuel cell of a nuclear reactor, comprising: