Plasma cutting system with dual electrode plasma arc torch

What is claimed is: 1. A plasma cutting system, comprising: a plasma cutting power supply that simultaneously outputs both of a first plasma cutting current and a second plasma cutting current; a plasma arc torch operatively connected to the plasma cutting power supply, wherein the plasma arc torch comprises: a first cathode that receives the first plasma cutting current; a first electrode electrically connected to the first cathode; a first swirl ring around the first electrode; a second cathode that receives the second plasma cutting current; a second electrode electrically connected to the second cathode and radially offset from the first electrode; and a second swirl ring around the second electrode, wherein the plasma arc torch simultaneously generates a first plasma arc from the first electrode and a second plasma arc from the second electrode during a plasma cutting operation; a gas controller configured to separately control a flow of a first plasma gas to the first swirl ring and a flow of a second plasma gas flow to the second swirl ring; a torch actuator that moves the plasma arc torch during the plasma cutting operation, wherein the torch actuator comprises a motor having a hollow shaft rotor for rotating the plasma arc torch during the plasma cutting operation; and a motion controller operatively connected to the torch actuator to control movements of the plasma arc torch during the plasma cutting operation. 2. The plasma cutting system of claim 1 , wherein a current level of the first plasma cutting current is greater than a current level of the second plasma cutting current. 3. The plasma cutting system of claim 1 , wherein a composition of the first plasma gas is different from a composition of the second plasma gas. 4. The plasma cutting system of claim 1 , wherein the first plasma gas is nitrogen and the second plasma gas is oxygen. 5. The plasma cutting system of claim 1 , wherein the torch actuator rotates the plasma arc torch such that the second electrode and the second plasma arc trail the first electrode and first plasma arc during the plasma cutting operation. 6. The plasma cutting system of claim 5 , wherein the second plasma arc removes a bevel from a cut edge created by the first plasma arc during the plasma cutting operation. 7. The plasma cutting system of claim 5 , wherein the second plasma arc removes material from a cut edge created by the first plasma arc during the plasma cutting operation. 8. The plasma cutting system of claim 7 , wherein the motion controller is configured to control the movements of the plasma arc torch to cut a curve portion through a workpiece while simultaneously rotating the plasma arc torch about an axis of the plasma arc torch, so as to maintain common cutting edges of the first plasma arc and the second plasma arc along the curve portion. 9. The plasma cutting system of claim 1 , wherein the first electrode is centered on and extends along an axis of the plasma arc torch. 10. The plasma cutting system of claim 9 , wherein the first electrode and the second electrode are parallel with each other. 11. The plasma cutting system of claim 1 , wherein the first plasma arc has a first focus depth distal of the first electrode, and the second plasma arc has a second focus depth distal of the second electrode, wherein a distance between the second focus depth and the second electrode is greater than a distance between the first focus depth and the first electrode. 12. A plasma cutting system, comprising: a plasma cutting power supply that simultaneously outputs both of a first plasma cutting current and a second plasma cutting current; a plasma arc torch operatively connected to the plasma cutting power supply, wherein the plasma arc torch comprises: a first cathode that receives the first plasma cutting current; a first electrode electrically connected to the first cathode; a first swirl ring around the first electrode; a second cathode that receives the second plasma cutting current; a second electrode electrically connected to the second cathode and radially offset from the first electrode; and a second swirl ring around the second electrode, wherein the plasma arc torch simultaneously generates a first plasma arc from the first electrode and a second plasma arc from the second electrode during a plasma cutting operation; a gas controller configured to separately control a flow of a first plasma gas to the first swirl ring and a flow of a second plasma gas flow to the second swirl ring; a torch actuator that moves the plasma arc torch during the plasma cutting operation, wherein the torch actuator is configured to rotate the plasma arc torch during the plasma cutting operation to control an angular orientation of the plasma arc torch with respect to a kerf cut through a workpiece; and a motion controller operatively connected to the torch actuator to control movements of the plasma arc torch during the plasma cutting operation. 13. The plasma cutting system of claim 12 , wherein a current level of the first plasma cutting current is greater than a current level of the second plasma cutting current, and a composition of the first plasma gas is different from a composition of the second plasma gas. 14. The plasma cutting system of claim 12 , wherein the first plasma gas is nitrogen and the second plasma gas is oxygen. 15. The plasma cutting system of claim 12 , wherein the torch actuator rotates the plasma arc torch such that the second electrode and the second plasma arc trail the first electrode and first plasma arc during the plasma cutting operation, and wherein the second plasma arc removes material from a cut edge created by the first plasma arc during the plasma cutting operation. 16. The plasma cutting system of claim 15 , wherein the motion controller is configured to control the movements of the plasma arc torch to cut a curve portion through the workpiece while simultaneously rotating the plasma arc torch about an axis of the plasma arc torch, so as to maintain common cutting edges of the first plasma arc and the second plasma arc along the curve portion. 17. The plasma cutting system of claim 12 , wherein the first plasma arc has a first focus depth distal of the first electrode, and the second plasma arc has a second focus depth distal of the second electrode, wherein a distance between the second focus depth and the second electrode is greater than a distance between the first focus depth and the first electrode.