System and method for submerged arc welding

The invention claimed is: 1. A welding system, comprising: a gas supply system configured to provide a gas flow; a wire supply system configured to provide welding wire; a flux supply system configured to provide flux near a welding arc during submerged arc welding (SAW); and a welding torch assembly configured to receive the gas flow and the welding wire and to deliver the gas flow and the welding wire near the welding arc during the SAW. 2. The welding system of claim 1 , wherein the gas flow and the flux both at least partially provide a local atmosphere near the arc. 3. The welding system of claim 1 , wherein the welding torch assembly is configured to receive the flux and to mix the flux with the gas flow near the welding arc. 4. The welding system of claim 1 , wherein the gas flow comprises argon, helium, carbon dioxide, oxygen, nitrogen, hydrogen, or a combination thereof. 5. The welding system of claim 1 , wherein the gas flow comprises a fluorine-containing gas. 6. The welding system of claim 1 , wherein the flux supply system is coupled to the gas supply system and configured to provide the flux that is premixed with the gas flow to the welding torch assembly. 7. The welding system of claim 1 , comprising a welding power supply configured to provide a DC electrode positive (DCEP) output, DC electrode negative (DCEN) output, or a variable balance AC output to the welding torch assembly. 8. The welding system of claim 1 , wherein the flux comprises aluminate rutile (AR), aluminate basic (AB), aluminate fluoride basic (AF), fluoride basic (FB), or calcium silicate (CS) flux. 9. A system, comprising: a welding torch assembly, comprising: a welding torch body comprising a gas conduit configured to flow one or more gases through the welding torch body; a contact tip comprising one or more gas conduits configured to flow the one or more gases near a welding arc, wherein the contact tip is configured to couple to the welding torch body such that the gas conduit of the welding torch body is in fluid communication with the one or more gas conduits of the contact tip; and a flux delivery component configured to deliver granular flux near the welding arc, wherein the flux delivery component is coupled to the welding torch body near the contact tip and configured to mix the granular flux with the one or more gases near the welding arc. 10. The system of claim 9 , wherein the contact tip comprises a central wire conduit configured to provide a supply of welding wire to the welding arc, and wherein the one or more gas conduits are disposed in a ring around the central wire conduit and are coaxial with the central wire conduit. 11. The system of claim 9 , comprising a chamber that is formed between the welding torch body and the contact tip that couples the gas conduit of the welding torch body to the one or more gas conduits of the contact tip when the contact tip is coupled to the welding torch body. 12. The system of claim 9 , wherein the one or more gases comprise a shielding gas, a fluorine-containing gas, or a combination thereof. 13. The system of claim 9 , wherein the welding torch assembly is a submerged arc welding torch assembly or hybrid submerged arc welding torch assembly. 14. The system of claim 9 , wherein the one or more gas conduits of the contact tip are configured to flow the one or more gases near the welding arc and over a bed of the granular flux disposed on top of a weld pool at a flow rate that is configured to not disturb the bed of the granular flux. 15. The system of claim 9 , wherein the granular flux comprises a flow of neutral, semi-neutral, acidic, basic, or active granular flux. 16. The system of claim 9 , wherein the one or more gases comprise a fluorine-containing gas.