Nuclear fuel assembly for a boiling water reactor with redundant load chain

What is claimed is: 1. A fuel assembly for a boiling water reactor, the fuel assembly extending along a fuel assembly axis and comprising: a base including a lower tie plate; a head including an upper tie plate and a lift handle; a bundle of fuel rods extending axially between the lower tie plate and the upper tie plate; a water channel extending from the base to the head within the bundle of fuel rods and axially connecting the base to the head such that a load of the base is transferred to the head via the water channel; and a tie rod extending between the base and the head, the tie rod being axially fixed to the base and connected to the head via a connection assembly comprising a stopping member configured to abut an abutting surface of the head in a manner that limits a downward movement of the base relative to the head during lifting of the fuel assembly, in case of a breakage of the water channel; wherein the water channel forms a main load chain and the tie rod forms an auxiliary load chain that transfers load between the base and the head in case of breakage of the main load chain defined by the water channel. 2. The fuel assembly as in claim 1 , wherein the connection assembly is configured such that load of the base is transferred to the head via the tie rod only once the water channel has broken. 3. The fuel assembly as in claim 1 , wherein the connection assembly is configured to allow axial sliding of the tie rod relative to the head when the water channel is operational such that the load of the base is transferred to the head via the water channel and to axially stop the tie rod relative to the head once the water channel has broken such that the load of the base is transferred to the head via the tie rod. 4. The fuel assembly as in claim 1 , wherein the stopping member is fixedly attached to an upper end of the tie rod. 5. The fuel assembly as in any claim 1 , wherein the connection assembly is configured for the stopping member to wedge between the abutting surface and the tie rod in case of a downward displacement of the tie rod relative to the head. 6. The fuel assembly as in claim 5 , wherein the stopping member is fitted onto the tie rod to allow the tie rod to slide relative to the stopping member when the stopping member is not wedged. 7. The fuel assembly as in claim 1 , wherein an outer surface of the stopping member that is configured for contacting the abutting surface is frustoconical and/or tapers downwardly. 8. The fuel assembly as in claim 1 , wherein the abutting surface is frustoconical and/or tapers downwardly. 9. The fuel assembly as in claim 1 , wherein the stopping member is ring shaped and is fitted onto the tie rod. 10. The fuel assembly as in claim 9 , wherein the stopping member is slotted for allowing radial contraction of the stopping member onto the tie rod. 11. The fuel assembly as in claim 1 , wherein the connection assembly comprises a return member for urging the stopping member away from the abutting surface. 12. The fuel assembly as in claim 11 , wherein the return member is configured for pushing the stopping member away from the abutting surface in a permanent manner. 13. The fuel assembly as in claim 11 , wherein the return member is an elastically deformable spring. 14. The fuel assembly as in claim 11 , wherein the return member is a helical spring fitted onto an upper end of the tie rod and interposed between the stopping member and the head. 15. The fuel assembly as in claim 1 , wherein the stopping member is mounted captive onto the head. 16. The fuel assembly as in claim 15 , wherein the connection assembly comprises a retaining member mounted onto the head for retaining the stopping member captive in a cavity of the head. 17. The fuel assembly as in claim 16 , wherein the retaining member is screwed onto the head. 18. The fuel assembly as in claim 17 , wherein the retaining member is provided with at least one protrusion configured for driving the stopping member in rotation relative to the head jointly with the retaining member upon unscrewing the retaining member. 19. The fuel assembly as in claim 1 , wherein each tie rod is distinct from each fuel rod. 20. The fuel assembly as in claim 1 , wherein each tie rod is deprived of fissile material. 21. The fuel assembly as in claim 1 , wherein each tie rod is distinct from each water channel. 22. The fuel assembly as in claim 1 , wherein the connection assembly associated to each tie rod is configured for allowing an axial displacement of an upper end of the tie rod relative to the head on a limited stroke and for preventing axial displacement of the upper end of the tie rod relative to the head further than the limited stroke. 23. The fuel assembly as in claim 1 , wherein the tie rod extends through a hole of the head and is slidably received in this hole. 24. The fuel assembly as in claim 1 , wherein the stopping member is positioned axially along the tie rod such as to allow a limited downward stroke of the stopping member downwardly relative to the head before the stopping member abuts the abutting surface such as to prevent a further downward movement of the base relative to the head.