Common engine and exhaust treatment fuel system

Abstract

A fuel system for an engine is disclosed. The fuel system has a common source of pressurized fuel, at least one injection device, an exhaust treatment device, and a regeneration device. The at least one injection device is configured to inject fuel from the common source into a combustion chamber of the engine. The exhaust treatment device is configured to remove particulate matter from an exhaust flow of the engine. The regeneration device is configured to inject fuel from the common source into at least one of the exhaust treatment device and the exhaust flow.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic and diagrammatic illustration of an exemplary disclosed power system; and

FIG. 2 is a schematic illustration of a pressure regulating valve for use with the power system of FIG. 1.

Claims

1. A fuel system for an engine, comprising: a common source of pressurized fuel;at least one injection device configured to inject fuel from the common source into a combustion chamber of the engine;an exhaust treatment device configured to remove particulate matter from an exhaust flow of the engine; anda regeneration device configured to inject fuel from the common source into at least one of the exhaust treatment device and the exhaust flow.

2. The fuel system of claim 1, wherein the pressure of the fuel injected by the at least one injection device is different from the pressure of the fuel injected by the regeneration device.

3. The fuel system of claim 1, further including a control valve configured to selectively block a stream of the pressurized fuel from the common source to the regeneration device.

4. The fuel system of claim 3, wherein the control valve is also configured to restrict a flow of fuel to the at least one injection device.

5. The fuel system of claim 4, wherein the control valve includes a valve element solenoid movable between a first position at which pressurized fuel directed through the control valve is only communicated with the at least one injection device, and a second position at which pressurized fuel directed through the control valve is only communicated with the regeneration device.

6. The fuel system of claim 3, further including a bypass circuit configured to direct fuel from downstream of the control valve to a point upstream of the common source in response to a pressure of the fuel.

7. The fuel system of claim 1, further including a bypass circuit having a pressure regulator configured to regulate the pressure of fuel directed to the regeneration device.

8. The fuel system of claim 7, wherein the pressure regulator is also configured to simultaneously regulate the pressure of the fuel directed to the at least one fuel injection device.

9. The fuel system of claim 8, wherein the regulated pressure of the fuel directed to the regeneration device is about 300 psi and the regulated pressure of the fuel directed to the at least one injection device is about 80 psi.

10. The fuel system of claim 7, wherein the pressure regulator includes: a housing having a central bore, an inlet, an outlet, and a first restrictive orifice;a spool element disposed within the housing and being movable between a first position at which fuel may flow from the inlet to the outlet, and a second position at which fuel is blocked from flowing from the inlet to the outlet, the spool valve including: a central bore that fluidly communicates the inlet with the dampening orifice; anda second restrictive orifice disposed within the central bore of the spool element; anda spring disposed within the housing to bias the spool element toward the second position.

11. The fuel system of claim 10, wherein the flow restriction through the first restrictive orifice is less than the flow restriction through the second orifice.

12. The fuel system of claim 1, wherein the at least one fuel injection device is a common rail type fuel injector.

13. A method of controlling a fuel system, comprising: operating a common source to pressurize fuel;directing pressurized fuel from the common source to a combustion chamber of an engine; anddirecting pressurized fuel from the common source to a particulate regeneration device.

14. The method of claim 13, further including selectively blocking a flow of pressurized fuel to the combustion chamber and the particulate regeneration device.

15. The method of claim 13, further including restricting the flow of pressurized fuel to the combustion chamber to regulate the pressure of the fuel directed to the particulate regeneration device.

16. The method of claim 15, wherein the step of restricting also simultaneously regulates the pressure of the fuel directed to the combustion chamber.

17. The method of claim 16, wherein the regulated pressure of fuel directed to the particulate regeneration device is about four times the regulated pressure of the fuel directed to the combustion chamber.

18. A power system, comprising: an engine having at least one combustion chamber and being operable produce a power output and a flow of exhaust;a common source of pressurized fuel;at least one injection device configured to inject pressurized fuel from the common source into the combustion chamber;an exhaust treatment device configured to remove particulate matter from the flow of exhaust;a regeneration device configured to inject pressurized fuel from the common source into the flow of exhaust;a control valve configured to selectively direct a stream of the pressurized fuel from the common source to the regeneration device and block a flow of fuel to the at least one injection device; anda bypass circuit having a pressure regulator configured to simultaneously regulate the pressure of fuel directed to the regeneration device and the pressure of the fuel directed to the at least one fuel injection device.

19. The power system of claim 18, wherein the regulated pressure of the fuel directed to the regeneration device is about 300 psi and the regulated pressure of the fuel directed to the at least one injection device is about 80 psi.

20. The power system of claim 18, wherein the pressure regulator includes: a housing having a central bore, an inlet, an outlet, and a first restrictive orifice;a spool element disposed within the housing and being movable between a first position at which fuel may flow from the inlet to the outlet, and a second position at which fuel is blocked from flowing from the inlet to the outlet, the spool valve including: a central bore that fluidly communicates the inlet with the dampening orifice; anda second restrictive orifice disposed within the central bore of the spool element; anda spring disposed within the housing to bias the spool element toward the second position.

21. The power system of claim 20, wherein the flow restriction through the first restrictive orifice is less than the flow restriction through the second orifice.

22. The power system of claim 18, wherein the control valve includes a valve element solenoid movable between a first position at which pressurized fuel directed through the control valve is only communicated with the at least one injection device, and a second position at which pressurized fuel directed through the control valve is only communicated with the regeneration device.

23. The power system of claim 18, further including a bypass circuit configured to direct fuel from downstream of the control valve to a point upstream of the common source in response to a pressure of the fuel.