Controlling and delivering gases in a plasma arc torch and related systems and methods

What is claimed: 1. A plasma arc torch system comprising a plasma arc torch, the torch comprising: a nozzle having a central exit orifice; one or more plasma gas supply lines operable to provide plasma gas to the nozzle; a shield surrounding the nozzle; one or more shield gas supply lines operable to deliver shield gas between the nozzle and the shield; and a valve system comprising a multiway valve and disposed within the torch and fluidly connected to the one or more shield gas supply lines to dynamically control a gas flow of the shield gas, wherein at least three gas lines selected from the group consisting of the one or more shield gas supply lines and the one or more plasma gas supply lines are connected to the multiway valve within the torch. 2. The plasma arc torch system of claim 1 , further comprising a plasma gas control valve fluidly connected to the one or more plasma gas supply lines to dynamically control a gas flow of plasma gas to the nozzle. 3. The plasma arc torch system of claim 1 , wherein the multiway valve is configured to transition between a first shield gas in a first of the one or more shield gas supply lines and a second shield gas in a second of the one or more shield gas supply lines in less than 1 second. 4. A method of operating a plasma cutting system, the method comprising: providing a plasma arc torch comprising: a nozzle having a central exit orifice; one or more plasma gas supply lines operable to provide plasma gas to the nozzle; a shield surrounding the nozzle; a plurality of shield gas supply lines operable to deliver shield gas between the nozzle and the shield; and a valve system comprising a multiway valve and disposed within the torch and fluidly connected to the one or more shield gas supply lines to dynamically control a gas flow of the shield gas, wherein at least three gas lines selected from the group consisting of the one or more shield gas supply lines and the one or more plasma gas supply lines are connected to the multiway valve within the torch; supplying a first shield gas to the plasma arc torch through the valve system; and activating the valve system to limit further flow of the first shield gas between the nozzle and the shield. 5. The method of claim 4 , wherein the plasma arc torch further comprises a plasma gas control valve fluidly connected to the one or more plasma gas supply lines to dynamically control a gas flow of plasma gas to the nozzle, the method further comprising supplying the plasma gas to the plasma arc torch through the valve system. 6. The method of claim 5 , further comprising igniting a plasma arc within the plasma arc torch in the presence of the plasma gas. 7. The method of claim 6 , further comprising transitioning from a first shield gas in a first of the one or more shield gas supply lines to a second shield gas in a second of the one or more shield gas supply lines using the valve system. 8. The method of claim 5 , wherein the plasma gas control valve comprises a multiway valve, the method further comprising-transitioning from a first plasma gas in a first of the one or more plasma gas lines to a second plasma gas in a second of the one or more plasma gas lines and performing a plasma cutting operation using the second plasma gas. 9. The plasma arc torch system of claim 1 , further comprising a crossover line fluidly connecting one of the one or more plasma gas supply lines to one of more of the shield gas supply lines, the crossover line comprising a crossover valve operable to dynamically control gas flow in the crossover line. 10. The plasma arc torch system of claim 1 , wherein the valve system is disposed adjacent to the torch.