Plasma cutting torch, nozzle and shield cap

What is claimed is: 1. A plasma cutting nozzle; comprising: an upstream portion having at least two o-ring grooves, a nozzle removing groove on an outer surface thereof and a first maximum outside diameter, where said first maximum outside diameter is the largest outside diameter of said nozzle; a transition portion coupled to and positioned adjacent to said upstream portion in a downstream direction relative to a flow along said nozzle, said transition portion comprising: a cylindrical portion having a second maximum outside diameter which is smaller than said first maximum outside diameter; an angled portion, positioned downstream of said cylindrical portion, having a conical shape which reduces the outside diameter of said nozzle from said second maximum outside diameter; and a plurality of cooling channels positioned radially around an outer surface of said transition portion; a distal portion coupled to and positioned adjacent to said transition portion in a downstream direction relative to a flow along said nozzle, said distal portion comprising: at least one o-ring groove; an inner retaining cap seat portion; and a distal cooling portion having a cylindrical shape and a flat distal end surface, wherein said retaining cap seat portion is positioned between said at least one o-ring groove and said distal cooling portion; and an inner cavity within said nozzle which comprises a swirl ring seating surface within said cavity. 2. The plasma cutting nozzle of claim 1 , wherein said plurality of grooves extend on said outer surface of said transition portion from said cylindrical portion to said angled portion. 3. The plasma cutting nozzle of claim 1 , wherein the number of grooves is in the range of 5 to 12. 4. The plasma cutting nozzle of claim 1 , wherein said plurality of grooves are oriented straight relative to a centerline of said nozzle, said centerline passing through the center of said inner cavity in a flow direction. 5. The plasma cutting nozzle of claim 1 , wherein said seating surface is positioned within said inner cavity such that a distance from said swirl ring seating surface to an upstream end of said nozzle CD is in the range of 40 to 60% of the overall length of the nozzle from said upstream end to said flat distal end surface. 6. The plasma cutting nozzle of claim 5 , wherein said distance CD is in the range of 0.62 to 0.72 inches. 7. The plasma cutting nozzle of claim 1 , wherein said distal cooling portion has a length L which is in the range of 5 to 15% of the overall length of the nozzle from an upstream end of said nozzle to said flat distal end surface, where said length L is from said flat distal end surface to said inner retaining cap seat portion. 8. The plasma cutting nozzle of claim 1 , wherein a first curved portion couples said upstream portion to said transition portion and a second curved portion couples said transition portion to said distal portion. 9. The plasma cutting nozzle of claim 1 , wherein at least some of said grooves are angled relative to a centerline of said nozzle, said centerline passing through the center of said inner cavity in a flow direction. 10. A plasma torch assembly, comprising: a nozzle; comprising: an upstream portion having at least two o-ring grooves, a nozzle removing groove on an outer surface thereof and a first maximum outside diameter, where said first maximum outside diameter is the largest outside diameter of said nozzle; a transition portion coupled to and positioned adjacent to said upstream portion in a downstream direction relative to a flow along said nozzle, said transition portion comprising: a cylindrical portion having a second maximum outside diameter which is smaller than said first maximum outside diameter; an angled portion, positioned downstream of said cylindrical portion, having a conical shape which reduces the outside diameter of said nozzle from said second maximum outside diameter; and a plurality of cooling channels positioned radially around an outer surface of said transition portion; a distal portion coupled to and positioned adjacent to said transition portion in a downstream direction relative to a flow along said nozzle, said distal portion comprising: at least one o-ring groove; an inner retaining cap seat portion; and a distal cooling portion having a cylindrical shape and a flat distal end surface, wherein said retaining cap seat portion is positioned between said at least one o-ring groove and said distal cooling portion; and an inner cavity within said nozzle which comprises a swirl ring seating surface within said cavity; and an inner retaining cap which secures said nozzle within said torch assembly, where said distal cooling portion of said distal portion passes through an orifice in a distal end of said inner retaining cap, and said distal cooling portion has a length L such that said flat distal end of said distal cooling portion extends beyond said distal end of said inner retaining cap by a distance in the range of 0.025 to 0.15 inches, where said length L is from said flat distal end surface to said inner retaining cap seat portion. 11. The plasma torch assembly of claim 10 , wherein said length L is in the range of 5 to 15% of the overall length of the nozzle from an upstream end of said nozzle to said flat distal end surface. 12. The plasma torch assembly of claim 10 , wherein said plurality of grooves extend on said outer surface of said transition portion from said cylindrical portion to said angled portion. 13. The plasma torch assembly of claim 10 , wherein said plurality of grooves are oriented straight relative to a centerline of said nozzle, said centerline passing through the center of said inner cavity in a flow direction. 14. The plasma torch assembly of claim 10 , wherein the number of grooves is in the range of 5 to 12. 15. The plasma torch assembly of claim 10 , wherein said seating surface is positioned within said inner cavity such that a distance from said swirl ring seating surface to an upstream end of said nozzle CD is in the range of 40 to 60% of the overall length of the nozzle from said upstream end to said flat distal end surface. 16. The plasma torch assembly of claim 15 , wherein said distance CD is in the range of 0.62 to 0.72 inches. 17. A plasma cutting nozzle; comprising: an upstream portion having at least two o-ring grooves, a nozzle removing groove on an outer surface thereof and a first maximum outside diameter, where said first maximum outside diameter is the largest outside diameter of said nozzle; a transition portion coupled to and positioned adjacent to said upstream portion in a downstream direction relative to a flow along said nozzle, said transition portion comprising: a cylindrical portion having a second maximum outside diameter which is smaller than said first maximum outside diameter; an angled portion, positioned downstream of said cylindrical portion, having a conical shape which reduces the outside diameter of said nozzle from said second maximum outside diameter; and a plurality of cooling channels positioned radially around an outer surface of said transition portion, wherein said plurality of grooves extend on said outer surface of said transition portion from said cylindrical portion to said angled portion, and wherein said plurality of grooves are oriented straight relative to a centerline of said nozzle, said centerline passing through the center of said inner cavity in a flow direction; a distal portion coupled to and positioned adjacent to said transition portion in a downstre