Apparatus and method for reducing torque on a drill string

What is claimed is: 1. An apparatus for reducing torque on a drill string, comprising: a first bearing assembly and a second bearing assembly, each formed from a plurality of sections and adapted to be clamped around a tubular portion of a drill pipe; wherein each of the bearing assembly sections comprises a first portion and a second portion, with a diameter of the second portion being smaller than a diameter of the first portion; a plurality of grooves formed axially along an interior surface of each of the first and second bearing assemblies, wherein the plurality of grooves form an opening from an exterior surface of the drill pipe to the interior surface of each of the first and second bearing assemblies; a plurality of bearing inserts fixed to the second portions of the sections of the first and second bearing assemblies, wherein each of the plurality of bearing inserts includes a shoulder disposed at an end of the bearing insert that spans a full length of the second portions of the first and second bearing assemblies, and wherein the bearing inserts are manufactured from a low friction material; and a bearing sleeve adapted to be disposed around the bearing inserts and retained in an axial position along the drill pipe by the shoulders on the bearing inserts, wherein an exterior surface of the bearing sleeve is hard coated or manufactured from a hard material. 2. The apparatus of claim 1 , wherein: the first portion of each of the first bearing assembly and the second bearing assembly has one beveled edge at an end of the first and second bearing assemblies that is distal to the second portion. 3. The apparatus of claim 1 , wherein the bearing sleeve comprises: a solid outer sleeve having at least one beveled edge on an outer surface of the solid outer sleeve. 4. The apparatus of claim 1 , wherein each of the sections of the first bearing assembly and the second bearing assembly comprise: a counterhore hole; and a threaded hole, wherein the counterbore hole of a first section of each of the first bearing assembly and the second bearing assembly alis with the threaded hole of an adjacent section of each of the first bearing assembly and the second bearing assembly when the first sections of the first bearing assembly and the second hearing assembly are coupled to the adjacent sections of the first bearing assembly and the second hearing assembly. 5. The apparatus of claim 4 , further comprising: a plurality of bolts disposed through aligned counterhore holes and threaded holes such that the sections of each of the first bearing assembly and the second bearing assembly are coupled together and clamped on the tubular portion of the drill pipe. 6. The apparatus claim 1 , wherein each section of the plurality of sections of the first and second bearing assemblies comprise: a first section; and a second section coupled to the first section; each of the first section and the second section having a swept angle of about 180 degrees. 7. The apparatus of claim 1 , wherein at least a portion of an interior surface of the first bearing assembly and the second bearing assembly comprise a knurled surface. 8. The apparatus of claim 1 , further comprising a clutch system disposed axially between the bearing sleeve and the first portion of one of the first bearing assembly or the second bearing assembly and radially outward of the second portion of the one of the first bearing assembly or the second bearing assembly, wherein the clutch system further comprises: a first ring formed at an axial end of the bearing sleeve; a second ring disposed axially between the first ring and the first portion, wherein the second ring is configured to one of compress, deform, or break upon axial force being applied from the first ring to the second ring. 9. The apparatus of claim 8 , wherein: the first ring includes a tooth extending from a side of the first ring; and a groove formed in an adjacent end of the second ring, the tooth from the side of the first ring extends into the groove; wherein the second ring has a second tooth circumferentially offset from the groove, the second tooth extending into a second groove formed in first portion. 10. The apparatus of claim 8 , wherein: the first ring is manufactured from steel. 11. The apparatus of claim 1 , wherein each of the sections of each of the first bearing assembly and the second bearing assembly further comprise: a coupling system that includes interlocking profiles formed at adjacent ends of the sections. 12. The apparatus of claim 11 , wherein the interlocking profiles comprise a plurality of shear tabs and shear recesses. 13. A method comprising: clamping a first bearing assembly on a tubular portion of a drill pipe, the tubular portion having a first outer diameter, the first bearing assembly comprising a plurality of bearing inserts fixed to the first bearing assembly, and each of the plurality of bearing inserts includes a shoulder disposed at an end of the bearing insert that spans a full length of the second portions of the first and second bearing assemblies; sliding a bearing sleeve axially over an end of the drill pipe, the end of the drill pipe having a tool joint with a second outer diameter greater than the first outer diameter, until the bearing sleeve is disposed around the plurality of bearing inserts and contacts the shoulder of each bearing insert on the first bearing assembly; clamping a second bearing assembly on the tubular portion of the drill pipe such that the bearing sleeve is disposed between first portions of the first bearing assembly and the second bearing assembly and maintained in a fixed axial position relative to the drill pipe; and forming an opening from an exterior surface of the drill pipe to an interior surface of each of the first and second bearing assemblies with a plurality of grooves axially along an interior surface of each of the first and second bearing assemblies. 14. The method of claim 13 , wherein clamping the first bearing assembly and clamping the second bearing assembly each comprise: disposing a first section on the tubular portion of the drill pipe; disposing a second section on the tubular portion of the drill pipe; aligning counterbore holes and threaded holes on each of the first and second sections; inserting bolts through the aligned counterbore holes and threaded holes; and tightening the belts. 15. The method of claim 13 , wherein clamping the second bearing assembly comprises: placing a plurality of sections of the second bearing assembly against the tubular portion of the drill pipe; sliding the second bearing assembly axially along the drill pipe until a second portion of the second bearing assembly is disposed beneath the bearing sleeve and adjacent to a second portion of the first bearing assembly, the second portions having a diameter smaller than the first portions; and clamping the sections of the second bearing assembly together around the tubular portion of the drill pipe. 16. An apparatus for reducing torque on a drill string, comprising; a first bearing assembly and a second bearing assembly, each formed from a plurality of sections and adapted to be clamped around a tubular portion of a drill pipe; a bearing sleeve adapted to be retained in an axial position along the drill pipe by the first bearing assembly and the second bearing assembly; and a clutch system disposed axially between the bearing sleeve and the first portion of one of the first bearing assembly or the second bearing assembly and radially outward of the second portion of the