A flow device for an exhaust treatment system includes a base and at least one flow deflector tube secured to the base. The flow deflector tube includes a flow inlet, a flow outlet, and a passage that extends through the flow deflector tube from the flow inlet to the flow outlet. The flow outlet is
A flow device for an exhaust treatment system includes a base and at least one flow deflector tube secured to the base. The flow deflector tube includes a flow inlet, a flow outlet, and a passage that extends through the flow deflector tube from the flow inlet to the flow outlet. The flow outlet is at an angled orientation to the flow inlet. A method of mixing reactants and exhaust in an exhaust treatment system includes the steps of injecting reactants into exhaust gases flowing through an exhaust conduit used to convey the exhaust gases from an engine. Bent tubes are disposed in the exhaust conduit and used to mix the exhaust gases and the reactants.
대표청구항▼
1. An exhaust treatment system comprising: an exhaust conduit for conveying exhaust gases from an engine of a vehicle along a flow path;an aftertreatment device disposed in the exhaust conduit;a flow device disposed in the flow path upstream of the aftertreatment device, the flow device including an
1. An exhaust treatment system comprising: an exhaust conduit for conveying exhaust gases from an engine of a vehicle along a flow path;an aftertreatment device disposed in the exhaust conduit;a flow device disposed in the flow path upstream of the aftertreatment device, the flow device including an inlet and an outlet and defining an exhaust flow redirection angle measured between the inlet and the outlet for redirecting exhaust flow through the flow device such that the exhaust flow swirls about a longitudinal axis of the flow device;a diameter restriction disposed between the flow device and the aftertreatment device and downstream of the outlet of the flow device, the diameter restriction being defined by a passage through a baffle body disposed in the conduit, the diameter restriction restricting the flow path by 0.15 to 0.45;a doser adapted for injecting reactants into the exhaust gases, wherein the doser is disposed upstream of the diameter restriction;wherein the baffle body is sized and shaped to inhibit passage of the injected reactants in the swirling exhaust flow through the diameter restriction until the injected reactants are vaporized or hydrolyzed, and wherein the baffle body is sized and configured to enable passage of vaporized or hydrolyzed reactants through the diameter restriction to the aftertreatment device;wherein all of the exhaust gases from the engine encounter the diameter restriction. 2. An exhaust treatment system as claimed in claim 1, wherein the aftertreatment device is a selective catalytic reduction catalyst device. 3. An exhaust treatment system as claimed in claim 1, wherein the aftertreatment device includes two selective catalytic reduction catalyst devices. 4. An exhaust treatment system as claimed in claim 1, further comprising a catalytic converter disposed upstream of the flow device. 5. An exhaust treatment system as claimed in claim 4, further comprising a diesel particulate filter disposed between the catalytic converter and the flow device. 6. An exhaust treatment system as claimed in claim 1, wherein the aftertreatment device is a lean NOx catalyst device. 7. The exhaust treatment system as claimed in claim 1, wherein the flow device includes: a base; anda plurality of flow deflectors disposed on the base, wherein the flow deflectors define the exhaust redirection angle. 8. The exhaust treatment system as claimed in claim 7, wherein the flow deflectors are arcuate in shape. 9. The exhaust treatment system as claimed in claim 7, wherein each flow deflector is a tube defining a passageway through the tube. 10. The exhaust treatment system as claimed in claim 7, wherein the base defines a plurality of holes disposed adjacent to the flow deflectors. 11. The exhaust treatment system as claimed in claim 10, wherein the flow deflectors are welded to a lip surrounding the plurality of holes of the base. 12. The exhaust treatment system as claimed in claim 10, wherein there are four flow deflectors and four holes in the base with each deflector disposed in one of the holes in the base. 13. The exhaust treatment system as claimed in claim 7, wherein the flow deflector includes an inner surface that is concave. 14. The exhaust treatment system of claim 7, further comprising a catalyst provided at at least one of the base and the deflectors. 15. The exhaust treatment system of claim 14, wherein the catalyst includes a hydrolysis catalyst. 16. The exhaust treatment system of claim 14, further comprising a structure secured to the at least one of the base and the deflectors for supporting the catalyst. 17. The exhaust treatment system of claim 16, wherein the structure includes a flow-through substrate provided within the deflectors. 18. The exhaust treatment system of claim 14, wherein at least one of the base and the deflectors includes at least portions coated with a wash coat including the catalyst. 19. The exhaust treatment system as claimed in claim 1, wherein the doser is disposed upstream of a mixing plane defined by the flow device. 20. The exhaust treatment system as claimed in claim 19, wherein the doser injects urea into the exhaust gases from the engine. 21. The exhaust treatment system as claimed in claim 19, wherein the doser injects ammonia into the exhaust gases from the engine. 22. An exhaust treatment system as claimed in claim 19, wherein the doser injects ammonia into the exhaust gases from the engine. 23. The exhaust treatment system as claimed in claim 1, wherein the exhaust flow redirection angle is 70 degrees to 110 degrees. 24. The exhaust treatment system as claimed in claim 1, wherein the exhaust flow redirection angle is 80 degrees to 100 degrees. 25. The exhaust treatment system as claimed in claim 1, wherein the exhaust flow redirection angle is 90 degrees. 26. The exhaust treatment system as claimed in claim 1, wherein the exhaust flow redirection angle is 45 degrees to 135 degrees. 27. The exhaust treatment system as claimed in claim 1, wherein the diameter restriction includes a plate having an opening through which the exhaust flow passes. 28. The exhaust treatment system as claimed in claim 27, wherein the plate is arranged perpendicular to the exhaust conduit. 29. The exhaust treatment system as claimed in claim 1, wherein the aftertreatment device is a selective catalytic reduction device.
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이 특허에 인용된 특허 (41)
Berriman Lester P. ; Zabsky John M. ; Ward William H., Ammonia injection in NOx control.
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Liu, Z. Gerald; Zuroski, Michael T.; Bremigan, Cary D.; Kicinski, Kenneth J.; Cheng, C. Raymond, Exhaust aftertreatment device, including chemical mixing and acoustic effects.
Maund Ehren R. (Greensburg PA) De Sousa Egas J. (Grand Blanc MI), Exhaust system for v-configured internal combustion engine with close-mounted catalytic converter.
Chu Paul (Canton OH) Downs William (Alliance OH) Doyle John B. (Littleton CO) Smith Peter V. (North Canton OH), Improved SOx, NOx, and particulate removal system.
Raimund Muller DE; Lothar Hofmann DE; Kurt Schardt DE; Wieland Mathes DE, Process and device for the catalytic cleaning of the exhaust gas from a combustion plant.
Chopin Thierry (Saint Denis FRX) Touret Olivier (La Rochelle FRX), Process for the catalytic conversion of exhaust gases using cerium/zirconium mixed oxide catalyst.
Chang Zung S. (Painted Post NY) Howitt John S. (Big Flats NY) VanDewoestine Robert V. (Corning NY), Swirl exhaust gas flow distribution for catalytic conversion.
Brandl, Mark Thomas; Hoppenstedt, Bruce; Schiller, Stephen Ronald; Whitten, Matthew S., Dosing and mixing arrangement for use in exhaust aftertreatment.
Brandl, Mark Thomas; Hoppenstedt, Bruce; Schiller, Stephen Ronald; Whitten, Matthew S., Dosing and mixing arrangement for use in exhaust aftertreatment.
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