Fuel system for a vehicle

What is claimed is: 1. A fuel delivery system for an engine in a vehicle, the system comprising: a first fuel pump fluidly coupling a fuel tank and a fuel line to provide pressurized fuel from the fuel tank to the fuel line; a second fuel pump fluidly coupling the fuel line and a fuel rail to provide pressurized fuel from the fuel line to the fuel rail, the second fuel pump positioned downstream of the first fuel pump; a first valve fluidly coupling the fuel line to the fuel tank, the first valve arranged for parallel flow with the first fuel pump; and a second valve fluidly coupling the fuel rail to the fuel line, the second valve arranged for parallel flow with the second fuel pump; and a controller in communication with the first valve and the second valve, wherein the controller is configured to open the first valve and the second valve during a vehicle key-off state to relieve pressure in the fuel rail by draining fuel from the fuel rail into the fuel line via the second valve and draining fuel from the fuel line into the fuel tank via the first valve. 2. The fuel delivery system of claim 1 wherein the controller is further configured to close the first valve and the second valve during the vehicle key-off state and in response to a predicted key-on event. 3. The fuel delivery system of claim 2 wherein the controller is further configured to operate the first fuel pump to provide pressurized fuel to the fuel line during the vehicle key-off state and in response to the predicted key-on event. 4. The fuel delivery system of claim 3 wherein the controller is further configured to operate the second fuel pump to provide pressurized fuel to the fuel rail during the vehicle key-off state and in response to the predicted key-on event. 5. The fuel delivery system of claim 1 wherein the controller is further configured to close the first valve and the second valve when the engine is operating. 6. The fuel delivery system of claim 1 wherein the controller is further configured to open the first valve and open the second valve during the vehicle key-off state and in response to a pressure in the fuel rail being above a first threshold. 7. The fuel delivery system of claim 6 wherein the controller is further configured to close the first valve and the second valve during the vehicle key-off state and in response to the pressure in the fuel rail being below a second threshold, the second threshold less than the first threshold. 8. The fuel delivery system of claim 6 wherein the first threshold is less than a pressure in the fuel rail during engine operation. 9. The fuel delivery system of claim 1 further comprising at least one direct injector fluidly connected to the fuel rail. 10. The fuel delivery system of claim 9 further comprising at least one port fuel injector fluidly coupled to the fuel rail. 11. The fuel delivery system of claim 1 wherein the second valve is a pulse width modulation valve; and wherein the controller is further configured to selectively open the second valve to bleed fuel from the fuel rail into the fuel line and relieve pressure in the fuel rail. 12. The fuel delivery system of claim 11 wherein the controller is further configured to selectively open the second valve as a function of a pressure differential between the fuel rail and the fuel line. 13. The fuel delivery system of claim 1 further comprising an orifice fluidly coupling the second valve and the fuel line. 14. A vehicle comprising: a fuel tank to receive a volume of fuel; a fuel pump in fluid communication with the fuel tank; a fuel rail receiving pressurized fuel from the fuel pump and having at least one injector; a valve fluidly coupling the fuel rail and the fuel tank; and a controller in communication with the valve, wherein the controller is configured to open the valve during a vehicle key-off state to drain fuel from the fuel rail into the fuel tank and relieve pressure in the fuel rail, and close the valve in response to a predicted key-on event during the vehicle key-off state. 15. The vehicle of claim 14 wherein the controller is configured to receive a signal indicative of the predicted key-on event from a distance to a vehicle key fob, a vehicle door opening, the vehicle door closing, and/or a sensor in a vehicle seat assembly. 16. The vehicle of claim 14 wherein the controller is further configured to operate the fuel pump to provide pressurized fuel to the fuel rail in response to the predicted key-on event during the vehicle key-off state. 17. The vehicle of claim 14 wherein the controller is further configured to open the valve during the vehicle key-off state and in response to a pressure in the fuel rail being above a first threshold. 18. The vehicle of claim 17 wherein the controller is further configured to close the valve during the vehicle key-off state and in response to the pressure in the fuel rail being below a second threshold, the second threshold less than the first threshold. 19. The vehicle of claim 14 wherein the at least one injector comprises a port fuel injector. 20. A method of controlling a fuel delivery system in a vehicle, the method comprising: operating a first fuel pump to provide pressurized fuel from a fuel tank to a fuel feed line during a vehicle key-on state; operating a second fuel pump positioned downstream of the first fuel pump to provide pressurized fuel from the fuel feed line to a fuel rail having at least one injector during the vehicle key-on state; opening a first valve fluidly coupling the fuel feed line to the fuel tank and arranged in parallel with the first fuel pump to relieve pressure in the fuel feed line by bypassing the first fuel pump and draining fuel from the fuel feed line into the fuel tank during a vehicle key-off state; and opening a second valve fluidly coupling the fuel rail to the fuel feed line and arranged in parallel with the second fuel pump to relieve pressure in the fuel rail by bypassing the first fuel pump and draining fuel from the fuel rail into the fuel feed line during the vehicle key-off state.