Patent Number: 
Section: claims

1. A lifting support for a boiling water reactor nuclear fuel assembly comprising:a grappling head configured to allow attachment of a lifting device;a body with an upper end and a lower end, the upper end connected to the grappling head, the body configured to be inserted into a water channel of the boiling water reactor nuclear fuel assembly; andan end connected to the lower end, the end configured to be accepted by the water channel of the nuclear fuel assembly, wherein the body defines an interior volume and the lifting support further comprises:an inner rod with a first end and a second end, the inner rod positioned in the interior volume;an actuator connected to the inner rod at the first end, the actuator configured to actuate and move the inner rod; anda ball lock end connected to the second end, the ball lock end configured to be actuated by the inner rod, the end further configured to be inserted into a water channel of a boiling water nuclear fuel assembly in a non-extended position and provide a load path for lifting the fuel assembly when in an extended position, the ball lock end positioned at the end connected to the lower end, wherein the lifting support has a length sufficient to insert the ball lock end to an elevation of a single lower tie plate of the fuel assembly. 2. The lifting support according to claim 1, wherein the lifting support is made from stainless steel. 3. The lifting support according to claim 2, wherein the stainless steel is type 18-8. 4. The lifting support according to claim 1, further comprising:a spacer located on the body, the spacer configured to limit direct contact between the body of the lifting support and the fuel assembly. 5. The lifting support according to claim 4, wherein the spacer is plastic. 6. The lifting support according to claim 4, wherein the spacer is removable from the body of the lifting support. 7. The lifting support according to claim 1, wherein the ball lock end is configured to engage the water channel in the extended position through a sheer connection. 8. The lifting support according to claim 1, wherein the actuator is a remote controlled actuator. 9. A fuel assembly for a boiling water reactor comprising:a fuel channel configured to define a volume, the channel having a lower end and an upper end, the lower and the upper ends open, the fuel channel further configured to channel a flow of coolant;a plurality of fuel rods each with a lower end and an upper end placed within the volume, the plurality of fuel rods containing fissile material;a lower single tie plate configured to support the plurality of rods, the lower tie plate configured to abut an interior side of the fuel channel lower end and allow flow of the coolant through the single lower tie plate through the channel;a removable upper tie plate configured to be attached to the fuel channel, the removable upper tie plate configured to restrict movement of the plurality of fuel rods;a water channel placed in the volume and connected to the single lower tie plate, the water channel configured to channel coolant flow from the single lower tie plate, the water channel further configured with an attachment end;a removable lifting support configured with a grappling head to allow attachment to a lifting device, a body with an upper end and a lower end, the upper end connected to the grappling head, the body configured to be inserted into the water channel of the boiling water reactor nuclear fuel assembly, and an end connected to the lower end, the end configured to be accepted and retained by the water channel attachment end, the end further configured to be disengaged from the water channel, wherein the body has an interior volume and the lifting support further comprises:an inner rod with a first end and a second end, the inner rod positioned in the interior volume;an actuator connected to the inner rod at the first end, the actuator configured to actuate and move the inner rod; anda ball lock end connected to the second end, the ball lock end configured to be actuated by the inner rod, the end further configured to be inserted into a water channel of a boiling water nuclear fuel assembly in a non-extended position and provide a lead path for lifting the fuel assembly when in an extended position; the ball lock end positioned at the end connected to the lower end, wherein the lifting support has a length sufficient to insert the ball lock end to an elevation of the single lower tie plate of the fuel assembly;a plurality of spacers positioned between the single lower tie plate and the removable upper tie plate, the plurality of spacers configured to maintain individual fuel rod positions of the plurality of rods and channel coolant flow; anda lower nozzle configured to channel fluid to the single lower tie plate and the water channel, the nozzle connected to the fuel channel. 10. The fuel assembly according to claim 9, wherein the lifting support is made from stainless steel. 11. The fuel assembly according to claim 9, wherein the fuel channel and the removable upper tie plate have matching slots and further comprising:a bolt configured with a head and an end, wherein the bolt is positioned through the slot in the fuel channel and the removable upper tie plate to provide a connection between the fuel channel and the removable upper tie plate. 12. The fuel assembly according to claim 11, further comprising:a screw configured to be attached to the bolt, wherein the bolt is configured with a head that has a larger diameter than the slot in the fuel channel, the bolt further configured with a hole to accept the screw to form a connection;a top plate configured with a hole wherein the screw is inserted, the top plate configured to be removably attached to the fuel channel upper end through an attachment; anda member attached to the fuel channel, the member configured to be attached to a load lifting device.