Methods and systems are provided for fuel systems including a gaseous fuel. Fuel rail over-pressure may be addressed by temporarily closing a fuel tank valve of the gaseous fuel and initiating diagnostics routines to determine if a pressure regulator is degraded. If the pressure regulator is degrade
Methods and systems are provided for fuel systems including a gaseous fuel. Fuel rail over-pressure may be addressed by temporarily closing a fuel tank valve of the gaseous fuel and initiating diagnostics routines to determine if a pressure regulator is degraded. If the pressure regulator is degraded, one or more fuel system components may be adjusted to enable fuel rail pressure control.
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1. A method of operating a fuel system to selectively deliver a gaseous fuel to an engine, comprising: during conditions including gaseous fuel not being delivered to the engine, sequentially opening a tank valve and a fuel rail valve of the fuel system;indicating degradation of a pressure regulator
1. A method of operating a fuel system to selectively deliver a gaseous fuel to an engine, comprising: during conditions including gaseous fuel not being delivered to the engine, sequentially opening a tank valve and a fuel rail valve of the fuel system;indicating degradation of a pressure regulator of the fuel system based on a change in fuel rail pressure during the sequential opening; anddelivering a liquid fuel to the engine. 2. The method of claim 1, wherein the gaseous fuel is delivered to the engine via a first fuel rail and the liquid fuel is delivered to the engine via a liquid fuel rail. 3. The method of claim 1, wherein the conditions include one of a fuel rail pressure of the gaseous fuel being higher than a threshold, an engine malfunction, or a use of a secondary fuel. 4. The method of claim 1, wherein the pressure regulator is an electronic pressure regulator including a mechanical pressure regulator coupled upstream of the fuel rail valve, and wherein degradation of the pressure regulator includes one or more of degradation of the mechanical pressure regulator and degradation of the fuel rail valve. 5. The method of claim 4, wherein the sequential opening includes opening the tank valve and then opening the fuel rail valve. 6. The method of claim 5, wherein the indicating includes indicating degradation of the pressure regulator in response to a change in fuel rail pressure following the opening of the tank valve but before the opening of the fuel rail valve in comparison to a pressure when the tank valve and fuel rail valve were closed. 7. The method of claim 1, wherein delivering a liquid fuel to the engine is based on the indication of degradation and a driver fuel selection. 8. A method, comprising: closing a fuel tank valve and a fuel rail valve of a gaseous fuel system; andduring selected conditions, sequentially opening the fuel tank valve and then the fuel rail valve from a closed state; andindicating degradation of a pressure regulator of the fuel system based on a change in fuel rail pressure during the sequential opening, including fuel rail valve leakage when fuel rail pressure increases up to a threshold pressure, and mechanical regulator overpressure when fuel rail pressure increases beyond the threshold pressure. 9. The method of claim 8, wherein the sequential opening includes opening the fuel tank valve, after opening the fuel tank valve regulating an opening of the fuel rail valve to a target fuel rail pressure, and then fully opening the fuel rail valve. 10. The method of claim 9, wherein the indicating includes indicating degradation of the pressure regulator in response to a comparison of pressures with the valves closed, the tank valve open, and the tank valve and fuel rail valve open. 11. The method of claim 10, wherein the degradation of the pressure regulator includes a leak in the fuel rail valve when the change in fuel rail pressure includes the fuel rail pressure increasing beyond the target fuel rail pressure. 12. The method of claim 9, wherein the indicating includes indicating degradation of the pressure regulator in response to a change in fuel rail pressure following the fuel rail valve being fully opened. 13. The method of claim 12, wherein the degradation of the pressure regulator includes an overpressure of a mechanical regulator when the change in fuel rail pressure includes the fuel rail pressure increasing beyond a threshold pressure. 14. The method of claim 8, wherein the tank valve is a high pressure regulating solenoid valve and wherein the fuel rail valve is a low pressure regulating duty-controlled solenoid valve. 15. The method of claim 8, further comprising performing a mitigating action based on the indication of one or both of fuel rail valve leakage and mechanical regulator overpressure. 16. A method, comprising: delivering a first, gaseous fuel from a first fuel tank to an engine via a first fuel rail; andin response to a fuel rail pressure of the first fuel rail being higher than a threshold, closing a tank valve of the first fuel tank, wherein fuel is delivered from the first fuel tank through the tank valve to the first fuel rail via a pressure regulator, wherein the pressure regulator is an electronic pressure regulator, the method further comprising regulating the fuel rail pressure of the first fuel rail via the electronic pressure regulator, the electronic pressure regulator including a mechanical pressure regulator positioned upstream of a duty-cycle controlled solenoid fuel rail valve, and, when the first, gaseous fuel is not in use, sequentially opening the tank valve and the fuel rail valve, and indicating degradation of the electronic pressure regulator based on a change in pressure of the first fuel rail during the sequential opening. 17. The method of claim 16, further comprising: delivering a second fuel, different from the first fuel, to the engine via a second fuel rail; anddiscontinuing injection of the first gaseous fuel into the engine while shifting to injection of the second fuel. 18. The method of claim 16, wherein degradation of the electronic pressure regulator includes one or more of degradation of the mechanical pressure regulator and degradation of the fuel rail valve, further comprising: in response to degradation of the mechanical pressure regulator, regulating the fuel rail pressure of the first fuel rail via adjustments to the fuel rail valve;in response to degradation of the fuel rail valve, regulating the fuel rail pressure of the first fuel rail via adjustments to the mechanical pressure regulator; andin response to degradation of the fuel rail valve and the mechanical pressure regulator, regulating the fuel rail pressure of the first fuel rail via adjustments to the tank valve. 19. The method of claim 16, further comprising using a CNG fuel as the first fuel and using a gasoline fuel as the second fuel. 20. The method of claim 16, further comprising a second sequential opening of the tank valve and the fuel rail valve.
Wang, Wenbo; Lucido, Michael J.; White, Vincent A.; Mac Ewen, Ian J.; Miller, Jon C., Fuel pressure sensor performance diagnostic systems and methods based on hydrodynamics of injecton.
Nakagawa, Hironari; Hidaka, Shigeki; Tanaka, Kensuke; Okada, Hatsuo, Method and apparatus for pressure reducing valve to reduce fuel pressure in a common rail.
Pauli Allen J. (Macomb Township MI) Shelly Patrick J. (Framington MI) Leroux Mark D. (Allen Park MI) Melville Thomas R. (Northville MI), On-board fuel delivery diagnostic system for an internal combustion engine.
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