System and method for reducing power train air resistance

The invention claimed is: 1. A vehicle system, comprising: an internal combustion engine; and a transmission enclosed within a transmission case coupled to a gaseous fuel source, the transmission case having an amount of gaseous fuel located therein; the gaseous fuel source coupled to an engine fuel line, wherein a vehicle is driven with power from the internal combustion engine, through gears positioned within the transmission case, and then to wheels of the vehicle. 2. The vehicle system of claim 1 , further comprising an electric motor providing an amount of torque to a drive train, the electric motor located within a motor case coupled to the gaseous fuel source, the motor case having an amount of gaseous fuel located therein. 3. The vehicle system of claim 2 , further comprising an electric generator generating an amount of energy from regenerative braking, the electric generator located within a generator case, the generator case having an amount of gaseous fuel located therein. 4. The vehicle system of claim 1 , wherein the transmission case is fluidically coupled to a motor case, a generator case, or a combination thereof. 5. The vehicle system of claim 1 , further comprising a purge canister fluidically coupled to the transmission case. 6. The vehicle system of claim 5 , wherein the purge canister is fluidically coupled to a fuel line via a three-way valve. 7. The vehicle system of claim 1 , wherein the gaseous fuel source includes methane gas. 8. A method for a vehicle, comprising: delivering a gaseous fuel into a transmission case of the vehicle and routing the gaseous fuel from inside the transmission case to an engine of the vehicle; and adjusting an amount of gaseous fuel within the transmission case in response to an air to fuel ratio (AFR) within the transmission case being above a threshold. 9. The method of claim 8 , further comprising delivering gaseous fuel into an electric motor case. 10. The method of claim 8 , further comprising delivering gaseous fuel into an electric generator case. 11. The method of claim 8 , further comprising driving the vehicle with power from the engine, through gears positioned within the transmission case, and then to wheels of the vehicle. 12. The method of claim 11 , further comprising adjusting the delivery of the gaseous fuel to the transmission case by injecting the fuel into a fuel line via a purge canister in response to a pressure within the purge canister. 13. The method of claim 8 , further comprising adjusting the amount of gaseous fuel within the transmission case in response to a temperature within the transmission case. 14. A method for operating a hybrid vehicle, comprising: injecting a first amount of compressed natural gas (CNG) into an electric motor case; injecting a second amount of CNG into a cylinder of a combustion engine in response to a desired engine torque; providing torque to a drive train from a motor in the electric motor case and the engine; purging a third amount of CNG from a transmission case into a purge canister; and injecting a fourth amount of CNG from the purge canister into the cylinder in response to one or more operating conditions. 15. The method of claim 14 , further comprising determining the first amount of CNG injected into the electric motor case in response to an amount of air resistance desired within the electric motor case. 16. The method of claim 14 , further comprising transmitting torque from the engine and the motor through a transmission in the transmission case. 17. The method of claim 16 , further comprising driving a vehicle wheel with an output of the transmission.