Patent Number: 
Section: claims

1. An annulus spacer for a fuel channel assembly of a nuclear reactor, the fuel channel assembly including a calandria tube and a pressure tube positioned at least partially within the calandria tube, the annulus spacer comprising:a garter spring configured to surround a portion of the pressure tube to maintain a gap between the calandria tube and the pressure tube, the garter spring including a first end and a second end;a sleeve joint including a tubular member extending between the first end and the second end of the garter spring such that the first end and the second end of the garter spring are coupled to the sleeve joint, the sleeve joint allowing movement of the annulus spacer when the pressure tube moves relative to the calandria tube during thermal cycles of the fuel channel assembly; anda girdle wire positioned substantially within the garter spring and configured to form a loop around the pressure tube, and wherein the girdle wire passes through the tubular member. 2. The annulus spacer of claim 1, wherein the tubular member has a first end coupled to the first end of the garter spring and a second end coupled to the second end of the garter spring such that the garter spring forms a toroid. 3. The annulus spacer of claim 1, wherein the sleeve joint includes a first flange positioned at a first end of the tubular member and a second flange positioned at a second end of the tubular member, wherein the first end of the garter spring surrounds a first portion of the tubular member and is retained by the first flange, and wherein a second end of the garter spring surrounds a second portion of the tubular member and is retained by the second flange. 4. The annulus spacer of claim 3, wherein the first and second flanges are first and second threaded shoulders, wherein the first end of the garter spring is threaded onto the first end of the tubular member and into engagement with the first threaded shoulder, and wherein the second end of the garter spring is threaded onto the second portion of the tubular member and into engagement with the second threaded shoulder. 5. The annulus spacer of claim 3, wherein the first end of the garter spring abuts a face defined by the second flange, and wherein the second end of the garter spring abuts a face defined by the first flange. 6. The annulus spacer of claim 3, wherein the first flange and second flange extend at least partially about a helical path around a circumference of the tubular member. 7. The annulus spacer of claim 3, wherein the sleeve joint is one integral piece that connects the first end and the second end of the garter spring. 8. The annulus spacer of claim 1, wherein the first and second ends of the garter spring axially overlap with each other on the tubular member. 9. The annulus spacer of claim 1, wherein the first and second ends of the garter spring have predetermined angular positions relative to each other when the spacer is unassembled. 10. The annulus spacer of claim 1, wherein the tubular member maintains the first end and the second end of the garter spring in a predetermined alignment to promote free rolling of the annulus spacer between the pressure tube and the calandria. 11. The annulus spacer of claim 1, wherein the first and second ends of the garter spring are secured to the sleeve joint by crimping, welding, press fitting or fasteners. 12. The annulus spacer of claim 1, wherein the first and second ends of the garter spring span an entire length of the tubular member. 13. An annulus spacer for a fuel channel assembly of a nuclear reactor, the fuel channel assembly including a calandria tube and a pressure tube positioned at least partially within the calandria tube, the annulus spacer comprising:a garter spring configured to surround a portion of the pressure tube to maintain a gap between the calandria tube and the pressure tube, the garter spring including a first end and a second end;a connector extending between the first end and the second end of the garter spring such that the first end and the second end of the garter spring are coupled to the connector to span an entire length of the connector such that the first and second ends of the garter spring interlock with each other on the connector, the connector allowing movement of the annulus spacer when the pressure tube moves relative to the calandria tube during thermal cycles of the fuel channel assembly; anda girdle wire positioned substantially within the garter spring and configured to form a loop around the pressure tube. 14. The annulus spacer of claim 13, wherein the connector includes a tubular member having a first portion and a second portion, and wherein the first end of the garter spring is coupled to the first portion of the tubular member and the second end of the garter spring is coupled to the second portion of the tubular member such that the garter spring forms a toroid. 15. The annulus spacer of claim 14, wherein the connector includes a first flange positioned on the first portion of the tubular member and a second flange positioned on the second portion of the tubular member, wherein the first end of the garter spring surrounds the first portion of the tubular member and is retained by the first flange, and wherein the second end of the garter spring surrounds the second portion of the tubular member and is retained by the second flange. 16. The annulus spacer of claim 15, wherein the first and second flanges are first and second threaded shoulders, wherein the first end of the garter spring is threaded onto the first portion of the tubular member and into engagement with the first threaded shoulder, and wherein the second end of the garter spring is threaded onto the second portion of the tubular member and into engagement with the second threaded shoulder. 17. The annulus spacer of claim 16, wherein the first threaded shoulder defines a face to inhibit the second end of the garter spring from further being threaded onto the tubular member, and wherein the second threaded shoulder defines a face to inhibit the first end of the garter spring from being further threaded onto the tubular member. 18. The annulus spacer of claim 15, wherein the first flange and second flange extend at least partially about a helical path around a circumference of the tubular member. 19. The annulus spacer of claim 13, wherein the connector is one integral piece that connects the first end and the second end of the garter spring. 20. The annulus spacer of claim 13, wherein the connector includes a tubular member through which the girdle wire passes. 21. The annulus spacer of claim 13, wherein the connector maintains the first and second ends of the garter spring in a predetermined alignment to promote free rolling of the annulus spacer between the pressure tube and the calandria. 22. The annulus spacer of claim 13, wherein the first and second ends of the garter spring are secured to the connector by crimping, welding, press fitting or fasteners. 23. A method of assembling an annulus spacer for a fuel channel assembly of a nuclear reactor, the method comprising:providing a garter spring forming a coil and having a first end and a second end;positioning a girdle wire within the coil formed by the garter spring;providing a sleeve joint including a tubular member having a first portion and a second portion;coupling the first end of the garter spring to the first portion of the tubular member, and coupling the second end of the garter spring to the second portion of the tubular member to form a toroid; andpositioning the girdle wire to extend through the tubular member of the sleeve joint. 24. The method of claim 23, wherein the sleeve joint further includes a first flange positioned on the first portion of the tubular member and a second flange positioned on the second portion of the tubular member, wherein coupling the first end of the garter spring to the first portion of the tubular member includes threading the first end of the garter spring onto the first portion of the tubular member so that the first flange axially retains the first end of the garter spring, and wherein coupling the second end of the garter spring to the second portion of the tubular member includes threading the second end of the garter spring onto the second portion of the tubular member so that the second flange axially retains the second end of the garter spring. 25. The method of claim 24, further comprising abutting the first end of the garter spring with a face defined on an end of the second flange, and abutting the second end of the garter spring with a face defined on an end of the first flange. 26. The method of claim 23, further comprising spanning an entire length of the tubular member with the first and second ends of the garter spring when the first and second ends of the garter spring are coupled to the respective portions of the tubular member. 27. The method of claim 26, further comprising axially overlapping the first and second ends of the garter spring on the tubular member. 28. The method of claim 23, further comprising securing the first and second ends of the garter spring to the tubular member by crimping, welding, press fitting or fasteners.