Plasma ARC torch electrode with symmetrical plasma gas flow

What is claimed is: 1. An electrode for a plasma arc torch comprising: a generally cylindrical elongated body formed of an electrically conductive material having a proximal end and a distal end; an emissive insert disposed at the distal end of the electrode body; a spiral flow passage disposed about a first surface relative to the proximal end of the elongated body, the spiral flow passage configured to direct a cooling gas flow about the first surface of the elongated body, the cooling gas flow separated from a plasma gas flow, the cooling gas flow and the plasma gas flow from a supply gas flow; and a flange disposed between the spiral flow passage and the distal end of the elongated body, the flange extending radially from a second surface of the elongated body, the flange and the spiral flow passage defining a volume therebetween and configured to increase turbulence and mixing of the supply gas flow within the volume, thereby establishing a substantially symmetrical gas flow distribution of the plasma gas flow about the distal end of the elongated body. 2. The electrode of claim 1 wherein the spiral flow passage includes at least one spiral groove disposed about the first surface of the elongated body. 3. The electrode of claim 1 wherein the flange is configured to extend circumferentially along the second surface of the elongated body. 4. The electrode of claim 1 wherein a radial height defined by the flow passage is larger than a radial height defined by the flange. 5. The electrode of claim 1 wherein the flange is arranged to substantially isolate a non-symmetrical flow pattern of the cooling gas from the substantially symmetrical plasma gas flow distribution. 6. The electrode of claim 1 wherein the flow passage includes one or more fins disposed about the first surface of the elongated body. 7. The electrode of claim 1 wherein the flange is arranged to substantially maintain a pressure of the plasma gas flow along the elongated body. 8. The electrode of claim 3 wherein the flange includes one or more discontinuities along its surface. 9. An electrode for a plasma arc torch comprising: a generally cylindrical elongated body composed of an electrically conductive material, the elongated body having a fore end arranged to connect to a power supply of the plasma arc torch and an aft end arranged to receive an emissive element; a spiral flow passage disposed about a first surface relative to the fore end of the elongated body, the spiral flow passage configured to forward a cooling gas flow about the first surface of the elongated body, the cooling gas flow separated from a plasma gas flow, the cooling gas flow and the plasma gas flow from a supply gas flow; and a radial extension disposed on a second surface of the elongated body positioned between the spiral flow passage and the aft end of the elongated body, the radial extension and the spiral flow passage defining a volume therebetween and configured to increase turbulence and mixing of the supply gas flow within the volume, thereby establishing a substantially symmetrical gas flow distribution of the plasma gas flow about the aft end of the elongated body. 10. The electrode of claim 9 wherein the radial extension is configured to extend circumferentially around the second surface of the elongated body. 11. The electrode of claim 9 wherein the radial extension includes one or more irregularities about its perimeter. 12. The electrode of claim 9 wherein the spiral flow passage includes one or more fins disposed about the first surface of the elongated body. 13. The electrode of claim 9 wherein the spiral flow passage includes two or more spiral flow grooves, the flow grooves being uniformly distributed about the first surface of the electrode body. 14. An electrode for a plasma arc torch comprising: a generally cylindrical elongated body composed of an electrically conductive material, the elongated body having a proximal end arranged to connect to a power supply of the plasma arc torch and a distal end arranged to receive an emissive element; a spiral flow passage disposed about a proximal surface relative to the proximal end of the elongated body, the spiral flow passage configured to forward a cooling gas flow about the proximal surface of the elongated body, the cooling gas flow separated from a plasma gas flow, the cooling gas flow and the plasma gas flow from a supply flow; and a flange disposed about a surface relative to the distal end of the elongated body, the flange extending radially from the surface of the elongated body, the flange and the spiral flow passage defining a volume therebetween and configured to increase turbulence and of the supply gas flow within the volume, thereby establishing a predetermined substantially symmetrical gas flow distribution of the plasma gas flow about the distal end of the elongated body. 15. The electrode of claim 14 further including a flow passage disposed about a proximal surface relative to the proximal end of the elongated body, the flow passage configured to forward a portion of the plasma gas flow to cool the proximal surface of the elongated body. 16. The electrode of claim 14 wherein the flange is configured to extend circumferentially along the surface of the elongated body. 17. The electrode of claim 14 wherein the flange includes one or more discontinuities along its surface. 18. The electrode of claim 15 wherein the flow passage includes one or more fins disposed about the proximal surface of the elongated body.