An exhaust treatment system for a power source has an air induction system, an exhaust system and a recirculation system. The exhaust system includes a particulate filter. The recirculation system is configured to draw exhaust from downstream of the particulate filter and direct the exhaust to the a
An exhaust treatment system for a power source has an air induction system, an exhaust system and a recirculation system. The exhaust system includes a particulate filter. The recirculation system is configured to draw exhaust from downstream of the particulate filter and direct the exhaust to the air induction system. The recirculation system includes an exhaust gas cooler, and an acidic debris filter.
대표청구항▼
What is claimed is: 1. An exhaust treatment system for a power source, comprising: an air induction system; an exhaust system, including a particulate filter; and a recirculation system configured to draw exhaust from the exhaust system at a location downstream of the particulate filter and to dire
What is claimed is: 1. An exhaust treatment system for a power source, comprising: an air induction system; an exhaust system, including a particulate filter; and a recirculation system configured to draw exhaust from the exhaust system at a location downstream of the particulate filter and to direct the exhaust to the air induction system, the recirculation system including: an exhaust gas cooler; and an acidic debris filter located downstream of the exhaust gas cooler, the acidic debris filter being provided in a metallic housing that, when exposed to acid, reacts to neutralize the acid and form a solid precipitate. 2. The exhaust treatment system of claim 1, wherein the acidic debris filter includes a media resistant to acid. 3. The exhaust treatment system of claim 1, wherein the metallic housing is a cage fabricated from galvanized steel. 4. The exhaust treatment system of claim 1, wherein the acidic debris filter media has a particulate trapping efficiency great enough to capture the solid precipitate formed by the reaction of acid with the metallic cage, but less than that of the particulate filter. 5. The exhaust treatment system of claim 1, wherein the acid is sulfuric acid. 6. The exhaust treatment system of claim 1, wherein the recirculation system further includes a pressure sensor configured to measure a pressure drop across the acidic debris filter. 7. The exhaust treatment system of claim 6, wherein the pressure drop across the acidic debris filter is compared with an expected pressure drop corresponding to an engine operating characteristic to determine a misfueling event. 8. The exhaust treatment system of claim 1, wherein the media is configured to sequester acid. 9. The exhaust treatment system of claim 8, wherein the media includes at least one of thermally expanded graphite and activated carbon. 10. A power source, comprising: an engine; an air induction system configured to direct air into the engine; an exhaust system configured to direct exhaust away from the engine and including a particulate filter; a recirculation system configured to draw exhaust from the exhaust system at a location downstream of the particulate filter and to direct the exhaust into the air induction system, the recirculation system including: an exhaust gas cooler; and an acidic debris filter located downstream of the exhaust gas cooler and fabricated with an acid resistant filter media supported by a metallic cage that, when exposed to acid, reacts to neutralize acid and form a solid precipitate. 11. The power source of claim 10, wherein the metallic cage is fabricated from galvanized steel. 12. The power source of claim 10, wherein the acidic debris filter media has a particulate trapping efficiency great enough to capture the solid precipitate formed by the reaction of acid with the metallic cage, but less than that of the particulate filter. 13. The power source of claim 10, wherein the recirculation system further includes a pressure sensor configured to measure a pressure drop across the acidic debris filter for comparison with an expected pressure drop corresponding to an engine operating characteristic. 14. The power source method of claim 10, wherein the acid is sulfuric acid. 15. A method of operating an exhaust treatment system for a power source, the method comprising: directing air into the power source; directing exhaust away from the power source; reducing the amount of particulates in the exhaust; cooling the particulate reduced exhaust; and removing acidic precipitate formed during the cooling, the removing of the acidic precipitate including oxidizing galvanized steel. 16. The method of claim 15, wherein the removing of acidic precipitate includes removing sulfuric acid. 17. The method of claim 15, further including: sensing a pressure of the exhaust; comparing the sensed pressure with an expected value; and recording a fault when the sensed pressure exceeds the expected value. 18. The method of claim 17, wherein an excessive difference between the sensed pressure and the expected value is interpreted as a misfueling event.
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이 특허에 인용된 특허 (9)
Blomquist,Micael; Ericson,Urban, Device for exhaust gas purification.
Wong, Hoi Ching; Payne, John; Beck, Niels Johannes, Optimized combustion control of an internal combustion engine equipped with exhaust gas recirculation.
Gonzalez Delgado, Manuel Angel; Tan, Julian C.; Bedford, Joshua Clifford; Miao, Yong; Hineiti, Naser I.; Yocum, Steven M., Exhaust aftertreatment and exhaust gas recirculation systems.
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