SOOT EXHAUST GAS RECIRCULATION SEPARATOR

Abstract

An exhaust gas recirculation (EGR) system with a diesel particulate filter (DPF) incorporated before the EGR cooler to filter the particulate matter from the EGR before entering the air intake. With the DPF installed before the EGR cooler soot buildup in all EGR components and air intake track is reduced or eliminated. Installing the DPF before the EGR cooler allows the DPF to be in passive regeneration while the vehicle's engine is in operation, extending the life and maintenance interval of the DPF. Alternatively, the DPF may be installed after the EGR cooler, reducing or eliminating soot buildup in the EGR valve and air intake.

Claims

1. An exhaust gas recirculation system in combination with an air intake and exhaust of a diesel engine comprising: a diesel engine having an air intake manifold, cylinders, and an exhaust manifold; a turbine coupled to the exhaust manifold and driven by an exhaust gas exiting through an exhaust pipe, and having a drive shaft; a compressor coupled to the drive shaft of the turbine and driven to compress air received from an air intake and transfer said compressed air to the intake manifold; and a high pressure exhaust gas recirculation exhaust pipe coupled to said exhaust manifold to receive a high pressure portion of said exhaust gas therefrom and route said high pressure portion of said exhaust gas to a diesel particulate filter, coupled to an exhaust gas recirculation cooler, coupled to an exhaust gas recirculation valve, and coupled to said air intake manifold via an outlet pipe; wherein a portion of particulate matter carried by said high pressure portion of said exhaust gas is filtered by said diesel particulate filter.

2. The exhaust gas recirculation system of claim 1 wherein said diesel particulate filter removes greater than 50 percent of the particulate matter from said high pressure portion of said exhaust gas.

3. The exhaust gas recirculation system of claim 1 wherein said diesel particulate filter removes approximately 85 percent of the particulate matter from said high pressure portion of said exhaust gas.

4. The exhaust gas recirculation system of claim 1 wherein said diesel particulate filter removes greater than 90 percent of the particulate matter from said high pressure portion of said exhaust gas.

5. The exhaust gas recirculation system of claim 1 wherein said diesel particulate filter includes a substrate material coated with platinum group metal.

6. The exhaust gas recirculation system of claim 1 wherein said diesel particulate filter includes a honeycomb substrate.

7. An exhaust gas recirculation system in combination with an air intake and exhaust of a diesel engine comprising: a diesel engine having an air intake manifold, cylinders, and an exhaust manifold; a turbine coupled to the exhaust manifold and driven by an exhaust gas exiting through an exhaust pipe, and having a drive shaft; a compressor coupled to the drive shaft of the turbine and driven to compress air received from an air intake and transfer said compressed air to the intake manifold; and a high pressure exhaust gas recirculation exhaust pipe coupled to said exhaust manifold to receive a high pressure portion of said exhaust gas therefrom and route said high pressure portion of said exhaust gas to an exhaust gas recirculation cooler, coupled to a diesel particulate filter, coupled to an exhaust gas recirculation valve, and coupled to said air intake manifold via an outlet pipe; wherein a portion of particulate matter carried by said high pressure portion of said exhaust gas is filtered by said diesel particulate filter.

8. The exhaust gas recirculation system of claim 7 wherein said diesel particulate filter removes greater than 50 percent of the particulate matter from said high pressure portion of said exhaust gas.

9. The exhaust gas recirculation system of claim 7 wherein said diesel particulate filter removes approximately 85 percent of the particulate matter from said high pressure portion of said exhaust gas.

10. The exhaust gas recirculation system of claim 7 wherein said diesel particulate filter removes greater than 90 percent of the particulate matter from said high pressure portion of said exhaust gas.

11. The exhaust gas recirculation system of claim 7 wherein said diesel particulate filter includes a substrate material coated with platinum group metal.

12. The exhaust gas recirculation system of claim 7 wherein said diesel particulate filter includes a honeycomb substrate.

13. An exhaust gas recirculation system in combination with an air intake and exhaust of a diesel engine comprising: a diesel engine having an air intake manifold, cylinders, and an exhaust manifold; a turbine coupled to the exhaust manifold and driven by an exhaust gas exiting through an exhaust pipe, and having a drive shaft; a compressor coupled to the drive shaft of the turbine and driven to compress air received from an air intake and transfer said compressed air to the intake manifold; and a high pressure exhaust gas recirculation exhaust pipe coupled to said exhaust manifold to receive a high pressure portion of said exhaust gas therefrom and route said high pressure portion of said exhaust gas to a diesel particulate filter, coupled to an exhaust gas recirculation cooler, coupled to an exhaust gas recirculation valve, and coupled to said air intake manifold via an outlet pipe; wherein a portion of particulate matter carried by said high pressure portion of said exhaust gas is filtered by said diesel particulate filter; wherein said diesel particulate filter includes a honeycomb substrate coated with a diesel oxidation catalyst.

14. The exhaust gas recirculation system of claim 13 wherein said diesel particulate filter removes greater than 50 percent of the particulate matter from said high pressure portion of said exhaust gas.

15. The exhaust gas recirculation system of claim 13 wherein said diesel particulate filter removes approximately 85 percent of the particulate matter from said high pressure portion of said exhaust gas.

16. The exhaust gas recirculation system of claim 13 wherein said diesel particulate filter removes greater than 90 percent of the particulate matter from said high pressure portion of said exhaust gas.

17. The exhaust gas recirculation system of claim 13 wherein said diesel particulate filter includes a substrate material coated with platinum group metal.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] FIG. 1 is a prior art illustration of an exhaust gas recirculation system.

[0011] FIG. 2 is an illustration of an embodiment of the exhaust gas recirculation system of the present invention.

[0012] FIG. 3 is a sectional side view of a diesel particulate filter.

[0013] FIG. 4 is an end view of the diesel particulate filter of FIG. 3.

DETAILED DESCRIPTION

[0014] Referring initially to FIG. 1, a prior art exhaust gas recirculation (EGR) system for a diesel engine is generally indicated by reference numeral 10. EGR system 10 includes an engine 12 with an air intake manifold 14, cylinders 16 and an exhaust manifold 18. A turbine 20 is connected to the exhaust manifold and driven by the exhaust gas which exits though an exhaust pipe 22. The turbine 20 drives a compressor 24 via drive shaft 25, which compresses air received through an air intake 26, and delivers the compressed air to the intake manifold 14 through a compressed air pipe 28. A portion of the exhaust from the exhaust manifold 18 is also routed through an EGR exhaust pipe 30 to an EGR cooler 32 and EGR valve 34 to the air intake manifold 14 through outlet pipe 36. In this prior art configuration, as the exhaust gas passes through the EGR cooler 32 and EGR valve 34, soot accumulates in the EGR cooler 32 and EGR valve 34 decreasing the efficiency and efficacy of these devices leading to failure, and costly replacement or repair. Further, the soot also abrades the pistons, piston rings, and cylinder walls of the engine, and decreases the life of the engine oil.

[0015] Referring to FIG. 2, an improved EGR system for a diesel engine is generally indicated by reference numeral 100. EGR system 100 includes an engine 112 with an air intake manifold 114, cylinders 116 and an exhaust manifold 118. A turbine 120 is connected to the exhaust manifold and driven by the exhaust gas which exits though an exhaust pipe 122. The turbine 120 drives a compressor 124, which compresses air received through an air intake 126, and delivers the compressed air to the intake manifold 114 through a compressed air pipe 128. A portion of the exhaust from the exhaust manifold 118 is also routed through an EGR exhaust pipe 130 through a diesel particulate filter (DPF) 132, an EGR cooler 134 and EGR valve 136 to the air intake manifold 114 through outlet pipe 138. The soot and particles in the exhaust gas are filtered by the DPF 132 before reaching the EGR cooler 134, EGR valve 136 and intake manifold 114. Alternatively, the DPF 132 may be installed after the EGR cooler 134, reducing or eliminating soot buildup in the EGR valve 136 and intake manifold 114.

[0016] The DPF 132 may include a honeycomb substrate 140 or wire mesh for example, that is coated with a diesel oxidation catalyst (DOC), such as a platinum group metal (PGM) catalyst to speed up oxidation of the particulate matter (PM). Using a coated DOC allows for passive regeneration of the DPF 132 at a lower temperature. Typically, the regeneration process requires a temperature of at least 550° F. to begin regeneration, but the higher the temperature the quicker and more efficient the burn off of the PM in the DPF 132 will be. Exhaust gas temperatures may range from 300° F. to 1400° F. depending on the load on the engine 112.

[0017] The DPF 132 is the filter 142 inside the casing 144 that physically captures the PM. The DPF 132 may be a PGM coated ceramic wall filter that is very porous to allow air flow but capture the PM. From the ends, the filter resembles a honeycomb but only every other passage is open. Each passage is open on one end and closed on the other, thus forcing the dirty exhaust gasses through the wall of the filter. Using the wall of the filter instead of only the face of the filter allows greater particulate capacity. Depending on the filter element, approximately 85% of the PM may be filtered from the ERG Stream, and 50% to 98% or greater of the PM removal from the EGR stream may be achieved.

[0018] It is to be understood that while certain now preferred forms of this invention have been illustrated and described, it is not limited thereto except insofar as such limitations are included in the following claims. Many different arrangements of the various components depicted, as well as components not shown, are possible without departing from the scope of the claims below. Embodiments of the technology have been described with the intent to be illustrative rather than restrictive. Alternative embodiments will become apparent to readers of this disclosure after and because of reading it. Alternative means of implementing the aforementioned may be completed without departing from the scope of the claims below. Certain features and sub-combinations are of utility and may be employed without reference to other features and sub-combinations and are contemplated within the scope of the claims.