Self-aligning neutron absorbing apparatus for reactivity mitigation in nuclear fuel storage systems

What is claimed is: 1. A neutron absorber apparatus for a nuclear fuel storage system, the apparatus comprising: a fuel rack comprising a vertical longitudinal axis and plurality of longitudinally-extending storage cells, each cell comprising a plurality of cell sidewalls defining a cell cavity configured for storing nuclear fuel therein; a sheath integrally attached to a first cell sidewall of a first cell and defining a sheathing cavity configured for holding a neutron absorber material; an absorber insert comprising plural longitudinally-extending neutron absorber plates each comprising a neutron absorber material, the insert disposed in the first cell; and an elastically deformable locking protrusion disposed on one of the absorber plates, the locking protrusion resiliently movable between an outward extended position and an inward retracted position; the locking protrusion lockingly engaging the sheath to axially restrain the insert and prevent removal of the insert from the first cell. 2. The neutron absorber apparatus according to claim 1 , wherein the locking protrusion engages a bottom edge of the sheath. 3. The neutron absorber apparatus according to claim 2 , wherein: the locking protrusion is movable from the outward extended position to the inward retracted position by engagement between the locking protrusion and a top edge of the sheath when the insert is initially inserted into the first cell; and wherein the locking protrusion is movable from the inward retracted position back to the outward extended position to lockingly engage the bottom edge of the sheath when the locking protrusion is positioned at an elevation below the sheath when the insert is fully inserted into the first cell. 4. The neutron absorber apparatus according to claim 1 , wherein the locking protrusion is a metal spring clip having a lower fixed end portion attached to the absorber insert and an upper cantilevered free end portion that is engaged with the sheath. 5. The neutron absorber apparatus according to claim 1 , wherein the locking protrusion is disposed proximate to a lower end of the insert. 6. The neutron absorber apparatus according to claim 1 , wherein the absorber insert has a four-sided tubular configuration formed by an assembly of a longitudinally-extending first absorber plate and second absorber plate. 7. The neutron absorber apparatus according to claim 6 , wherein the first and second absorber plates are coupled together at their upper and lower extremities by respective upper and lower stiffening bands attached to the plates. 8. The neutron absorber apparatus according to claim 6 , wherein the absorber insert defines a longitudinally-extending central cavity holding a fuel assembly therein. 9. The neutron absorber according to claim 7 , wherein each of the first and second absorber plates has a chevron cross-sectional shape. 10. The neutron absorber apparatus according to claim 7 , wherein each of the first and second absorber plates has a channel cross-sectional shape. 11. The neutron absorber apparatus according to claim 6 , wherein longitudinal edges between the first and second absorber plates are separated by longitudinally-extending slots that extend for a full length of the absorber insert. 12. The neutron absorber apparatus according to claim 2 , wherein the locking protrusion is disposed proximate to a corner of the insert to engage a lateral end portion of the bottom edge of the sheath. 13. A neutron absorber apparatus for a nuclear fuel storage system, the apparatus comprising: a fuel rack comprising a vertical longitudinal axis and plurality of longitudinally-extending storage tubes each defining a cell, each storage tube comprising a plurality of tube sidewalls defining a primary cavity; an absorber insert insertably disposed in the primary cavity of a first storage tube, the absorber insert comprising a plurality of absorber plates arranged to form a longitudinally-extending neutron absorber tube having an exterior and an interior defining a secondary cavity configured for storing a nuclear fuel assembly therein, each absorber plate formed of a neutron absorber material; an upper stiffening band extending perimetrically around an upper end of the absorber tube, the upper stiffening band attached to the exterior of the absorber tube and protruding laterally outwards beyond the absorber plates to engage the tube sidewalls of the first storage tube; a lower stiffening band extending perimetrically around a lower end of the absorber tube and disposed at least partially inside the secondary cavity, the lower stiffening band attached to the interior of the absorber tube; wherein the absorber plates of the insert assembly are spaced laterally apart from the tube sidewalls of the first storage tube by the upper stiffening band forming a clearance gap therebetween. 14. The neutron absorber apparatus according to claim 13 , further comprising a sheath integrally attached to one tube sidewall of the first storage tube and defining a sheath cavity configured for holding a neutron absorber sheet, the sheath disposed in the clearance gap between the absorber tube and the one tube sidewall of the first storage tube. 15. A neutron absorber apparatus for a nuclear fuel storage system, the apparatus comprising: a fuel rack comprising a plurality of longitudinally-extending storage cells, each cell comprising a plurality of cell walls defining a cell cavity for storing nuclear fuel; a longitudinally-extending absorber tube insertably disposed in a first cell of the fuel rack and having an exterior and an interior, the absorber tube comprising: an elongated chevron-shaped first absorber plate comprising a first section and a second section angularly bent to the first section along a bend line of the first absorber plate; an elongated chevron-shaped second absorber plate comprising a third section and a fourth section angularly bent to the third section along a bend line of the second absorber plate; an upper stiffening band extending perimetrically around upper ends of the first and second absorber plates and coupling the first and second absorber plates together; and a lower stiffening band extending perimetrically around lower ends of the first and second absorber plates and coupling the first and second absorber plates together, wherein the upper stiffening band is attached to the exterior of the absorber tube and the lower stiffening band is attached to the interior of the absorber tube. 16. The neutron absorber apparatus according to claim 15 , wherein the upper stiffening band laterally protrudes beyond the absorber tube and engages the cell walls of the first cell, the absorber tube spaced apart from the cell walls thereby forming a clearance gap therebetween. 17. The neutron absorber apparatus according to claim 16 , further comprising a sheath integrally attached to a first cell wall of the first cell and defining a sheath cavity configured for holding a neutron absorber sheet, the sheath disposed in the clearance gap between the absorber tube and the first cell wall. 18. The neutron absorber apparatus according to claim 17 , further comprising a laterally protruding cantilevered spring clip attached to one of the first and second absorber plates, the spring clip disposed proximate the lower stiffening band and lockingly engaging the sheath which prevents axial removal of the absorber tube from the first cell.