Plasma arc cutting system, consumables and operational methods

What is claimed is: 1. An electrode for a liquid cooled plasma arc torch, the electrode comprising: a body having a longitudinal axis defining a first end, a second end, and a middle portion between the first and second ends; a first sealing element disposed on an exterior of the body near the first end of the body, the first sealing element configured to provide a liquid seal; a second sealing element disposed on the exterior of the body, the second sealing element located in the middle portion between the first sealing element and the second end of the body along the longitudinal axis, the second sealing element configured to provide a first gas seal to a swirl gas chamber and defining a portion of the swirl gas chamber; and a third sealing element disposed on the exterior of the body, the third sealing element located between the second sealing element and the second end of the body along the longitudinal axis, the third sealing element configured to provide a second gas seal to the swirl gas chamber and defining a portion of the swirl gas chamber. 2. The electrode of claim 1 wherein the first sealing element provides a liquid seal. 3. The electrode of claim 1 wherein the first sealing element seals the exterior of the electrode body from a coolant directed to an interior surface of the electrode. 4. The electrode of claim 1 wherein the second sealing element forms a first end of the swirl gas chamber, the first end of the swirl gas chamber configured to force a swirl gas through an opening of a swirl ring in contact with the electrode during operation of the plasma arc torch. 5. The electrode of claim 1 wherein the third sealing element seals an end of the swirl gas chamber such that a swirl gas is forced through swirl holes in a swirl ring in fluid communication with the swirl gas chamber. 6. The electrode of claim 1 wherein a diameter of the first sealing element is larger than a diameter of the second sealing element. 7. The electrode of claim 1 wherein a diameter of the second sealing element is larger than a diameter of the third sealing element. 8. The electrode of claim 1 further comprising a quick-lock thread located near the first end of the body. 9. The electrode of claim 1 wherein the electrode has a tapered shape between the first end of the body and the second end of the body, the tapered shape configured to allow the electrode sealing elements to engage with and slide against adjacent components of the plasma arc torch such that a force required to assemble the electrode in the torch is reduced. 10. The electrode of claim 1 wherein one or more of the sealing elements are o-rings. 11. The electrode of claim 1 wherein the sealing elements are portions of chambers of the plasma arc torch. 12. An electrode for a liquid cooled plasma arc torch, the electrode comprising: a substantially hollow body having a first section, a second section, and a third section, the second section disposed between the first section and the third section; a first sealing member disposed circumferentially around an exterior surface of the first section of the body, the first sealing element configured to provide a liquid seal; a second sealing member disposed circumferentially around an exterior surface of the second section of the body, the second sealing member configured to provide a first gas seal to a swirl gas chamber of the plasma arc torch; and a third sealing member disposed circumferentially around an exterior surface of the third section of the body, the third sealing member configured to provide a second gas seal to the swirl gas chamber of the plasma arc torch, wherein the second sealing member and the third sealing member define a portion of a swirl gas chamber when the electrode is installed in the liquid cooled plasma arc torch. 13. The electrode of claim 12 wherein the first sealing member provides a liquid seal. 14. The electrode of claim 12 wherein the first sealing member seals the exterior surface of the first section of the body from a coolant directed to an interior surface of the electrode. 15. The electrode of claim 12 wherein the second sealing member forms a first end of the swirl gas chamber, the first end of the swirl gas chamber configured to force a swirl gas through an opening of a swirl ring in contact with the electrode during operation of the plasma arc torch. 16. The electrode of claim 12 wherein a diameter of the first sealing member is larger than a diameter of the second sealing member and a diameter of the second sealing member is larger than a diameter of the third sealing member. 17. The electrode of claim 12 further comprising a quick-lock thread located on or near the first section of the body. 18. The electrode of claim 12 wherein the electrode has a tapered shape between the first end of the body and the second end of the body, the tapered shape configured to allow the electrode sealing members to engage with and slide against adjacent components of the plasma arc torch such that a force required to assemble the electrode in the torch is reduced. 19. The electrode of claim 12 wherein one or more of the sealing members are o-rings. 20. A method of directing a plasma gas flow in a liquid cooled plasma arc torch, the method comprising: providing an electrode having a first liquid sealing member disposed on an exterior of the electrode, a first gas sealing member disposed on the exterior of the electrode, and a second gas sealing member disposed on the exterior of the electrode; flowing a plasma gas about an exterior surface of the electrode into a channel; directing the plasma gas flow from the channel into a chamber, the chamber defined in part by the first gas sealing member and the second gas sealing member; and directing the plasma gas flow through a set of swirl holes of the chamber and onto a workpiece.