Patent Number: 054935903
Section: claims

1. A fuel element assembly for use in a nuclear reactor using pressurized water as a coolant flowing in a plurality of fuel channels, said fuel element comprising: an elongated fuel element containing fissionable material, said fuel element having opposed ends and a peripheral surface extending the length between said opposed ends; and  at least one CHF enhancement appendage attached along the length of said fuel element and projecting outwardly from the peripheral surface of said fuel element for generating turbulence in said coolant flowing along said length of said fuel element downstream of the locations of said CHF enhancement appendage.  a fuel bundle containing a plurality of elongated fuel elements, each of said fuel elements having opposed ends and a peripheral surface extending the length between said opposed ends;  at least one spacer for separating said fuel elements from each other;  at least one bearing pad attached to outer fuel elements for providing load bearing to said fuel bundle; and  at least one CHF enhancement appendage attached to each of certain fuel elements along said length thereof and projecting outwardly from the peripheral surface of said each fuel element for generating turbulence in said coolant flowing along said length of said fuel bundle downstream of the locations of said CHF enhancement appendage.  an elongated pressure tube defining a fuel channel therethrough, said pressure tube having a length, an inlet for introducing said coolant into said fuel channel, and an outlet for discharging said coolant from said fuel channel;  a plurality of elongated fuel bundles contained within said pressure tube, each of said fuel bundles containing a plurality of fuel elements therein, each of said fuel elements having opposed ends and a peripheral surface extending the length between said opposed ends, said length of each fuel element being parallel to said length of said pressure tube;  a plurality of spacers for separating said fuel elements from each other;  a plurality of bearing pads attached to outer fuel elements for providing load bearing to said fuel bundles; and  at least one appendage provided on each of certain fuel elements along said length thereof and projecting outwardly from the peripheral surface of said each fuel element into coolant flow space within said fuel channel surrounded by fuel elements, for generating turbulence in said coolant flowing along said length of each of said fuel bundle downstream of the locations of said CHF enhancement appendages.  a pressure tube defining a fuel channel therethrough, said pressure tube having a length, an inlet for introducing said coolant into said fuel channel, and an outlet for discharging said coolant from said fuel channel;  a plurality of fuel bundles contained within said pressure tube, said fuel bundles being separated from each other forming water gaps therebetween, through which said coolant flows, each of said fuel bundles comprising a plurality of fuel elements separated from each other forming water gaps therebetween, through which said coolant flows, each of said fuel elements having opposed ends and a peripheral surface extending the length between said opposed ends, said length of each fuel element being parallel to said length of said pressure tube;  a plurality of spacers for separating said fuel elements from each other;  a plurality of bearing pads attached to outer fuel elements for providing load bearing to said fuel bundles;  a plurality of CHF enhancement appendages having a cylindrical shape and being attached to each of certain locations of certain said fuel elements along said length thereof and projecting outwardly from the peripheral surface of said each fuel element into said fuel channel for generating turbulence in said coolant flowing along said length of each of said fuel bundles within said fuel channel downstream of the locations of said CHF enhancement appendages;  each of said CHF enhancement appendages having a bottom where said CHF enhancement appendage is attached to one of said certain fuel elements, the cross-sectional area of each of said CHF enhancement appendage at said bottom thereof being in a range of 3 mm.sup.2 to 11 mm.sup.2, and the height of said CHF enhancement appendage from said bottom being in a range of 0.6 mm to 2.3 mm, each of said CHF enhancement appendages being attached at said bottom to one of said fuel elements and having no contact with the other fuel elements, one to four appendages being provided in each sub-channel defined by a space surrounded by some of said fuel elements;  the locations of said CHF enhancement appendages within said fuel bundle being such that the turbulence generated by said CHF enhancement appendages occurs at locations within the fuel bundle where CHF is most likely to occur. 2. A fuel element assembly according to claim 1, wherein at least two CHF enhancement appendages are positioned symmetrically about the length of said fuel element. 3. A fuel element assembly according to claim 1, wherein said CHF enhancement appendage has a cylindrical shape having a top end and a bottom end where said CHF enhancement appendage is attached to said fuel element. 4. A fuel element assembly according to claim 3, wherein the cross-sectional area of said CHF enhancement appendage at said bottom end thereof is in a range of 3 mm.sup.2 to 11 mm.sup.2, and the height of said CHF enhancement appendage from said bottom end is in a range of 0.6 mm to 2.3 mm. 5. A fuel element assembly according to claim 1, wherein the distance between said CHF enhancement appendage and a nearest end of said fuel element is in a range of 5 cm to 20 cm. 6. A fuel bundle assembly for use in a nuclear reactor using pressurized water as a coolant flowing in a plurality of fuel channels, said fuel bundle assembly comprising: 7. A fuel bundle assembly according to claim 6, wherein at least two CHF enhancement appendages are positioned symmetrically about the length of each of said certain fuel elements. 8. A fuel bundle assembly according to claim 6, wherein said CHF enhancement appendage has a cylindrical shape having a top end and a bottom end where said CHF enhancement appendage is attached to one of said fuel elements. 9. A fuel bundle assembly according to claim 8, wherein the cross-sectional area of said CHF enhancement appendage at said bottom end thereof is in a range of 3 mm.sup.2 to 11 mm.sup.2, and the height of said CHF enhancement appendage from said bottom end is in a range of 0.6 mm to 2.3 mm. 10. A fuel bundle assembly according to claim 6, wherein the distance between said CHF enhancement appendage and a nearest one of said ends of said fuel elements is in a range of 5 cm to 20 cm. 11. A pressurized fuel channel type nuclear reactor which uses pressurized water as a coolant, said reactor comprising: 12. A pressurized fuel channel type nuclear reactor according to claim 11, wherein said CHF enhancement appendage is attached on each of said certain fuel elements at a location where said CHF enhancement appendages generates the turbulence at locations within the fuel bundle where CHF is most likely to occur. 13. A pressurized fuel channel type nuclear reactor according to claim 11, wherein one to four CHF enhancement appendages are provided in each of certain subchannel defined by a coolant flow space surrounded by some of said fuel elements which are adjacent to each other, and said coolant flow space excludes any inter-fuel element gap defined by the closest distance between any two neighbouring fuel elements. 14. A pressurized fuel channel type nuclear reactor according to claim 11, wherein said CHF enhancement appendage is attached to one of said certain fuel elements and has no contact with the other fuel elements. 15. A pressurized fuel channel type nuclear reactor according to claim 11, wherein at least two CHF enhancement appendages are positioned symmetrically about the length of each of said certain fuel elements. 16. A pressurized fuel channel type nuclear reactor according to claim 11, wherein said CHF enhancement appendage has a cylindrical shape having a top end and a bottom end where said CHF enhancement appendage is attached to said fuel element. 17. A pressurized fuel channel type nuclear reactor according to claim 16, wherein the cross-sectional area of said CHF enhancement appendage at said bottom end thereof is in a range of 3 mm.sup.2 to 11 mm.sup.2, and the height of said CHF enhancement appendage from said bottom end is in a range of 0.6 mm to 2.3 mm. 18. A pressurized fuel channel type nuclear reactor according to claim 14, wherein distance between said CHF enhancement appendage and a nearest end of said fuel elements is in a range of 5 cm to 20 cm. 19. A critical power enhancement system for a nuclear reactor which uses pressurized water as a coolant, said system comprising: 20. A fuel bundle assembly according to claim 6, wherein said CHF enhancement appendage has no contact with any other fuel elements.