A flow device for an exhaust system includes a body that defines an interior cavity. An exhaust inlet passage is disposed in the interior cavity. An exhaust outlet passage is disposed in the interior cavity so that at least a portion of the exhaust inlet passage circumferentially surrounds at least
A flow device for an exhaust system includes a body that defines an interior cavity. An exhaust inlet passage is disposed in the interior cavity. An exhaust outlet passage is disposed in the interior cavity so that at least a portion of the exhaust inlet passage circumferentially surrounds at least a portion of the exhaust outlet passage. A doser is adapted to inject reductants into the interior cavity of the body such that the reductants are injected in the same general direction as the direction of flow of the exhaust gases.
대표청구항▼
1. A flow device for an exhaust system comprising: a body including a first axial end and an oppositely disposed second axial end, the body defining an inlet port and an outlet port, the body having a central longitudinal axis and defining an interior cavity, the interior cavity including a transiti
1. A flow device for an exhaust system comprising: a body including a first axial end and an oppositely disposed second axial end, the body defining an inlet port and an outlet port, the body having a central longitudinal axis and defining an interior cavity, the interior cavity including a transition space disposed adjacent to the second axial end;a first exhaust passage disposed in the interior cavity for directing exhaust out of the transition space, the first exhaust passage-being extending along the central longitudinal axis of the body;a second exhaust passage disposed in the interior cavity for directing exhaust into the transition space, the second exhaust passage-circumferentially surrounding at least a portion of the first exhaust-passage;a doser disposed at the second axial end of the body, the doser being adapted to inject reductants into the transition space of the body so that the reductants are injected in a direction that extends along the central longitudinal axis of the body; anda mixer disposed in the interior cavity adjacent to the second axial end of the body, the mixer being adapted to swirl exhaust gases within the transition space about the central longitudinal axis of the body. 2. A flow device for an exhaust system as claimed in claim 1, further comprising a substrate disposed in the second exhaust-passage. 3. A flow device for an exhaust system as claimed in claim 1, wherein the mixer includes a plate having a plurality of deflector tubes. 4. A flow device for an exhaust system as claimed in claim 1, wherein the mixer includes a plurality of vents with each vent including a deflector surface that directs exhaust gases in the body such that the exhaust gases swirl about the central longitudinal axis of the body. 5. A flow device for an exhaust system as claimed in claim 4, wherein the deflector surface is cup-shaped. 6. A flow device for an exhaust system as claimed in claim 1, wherein the mixer is adapted to swirl exhaust gases within the first exhaust passage about the central longitudinal axis of the body. 7. A flow device for an exhaust system as claimed in claim 1, wherein the doser is aligned with the central longitudinal axis. 8. An exhaust treatment system comprising: a flow device including:a body defining an interior cavity and including an outer wall, a first axial end, and an oppositely disposed second axial end, wherein the body includes an inner wall disposed in the interior cavity, the inner wall extending from the first axial end toward the second axial end, the body defining an inlet port disposed adjacent to the first axial end and an outlet port disposed adjacent to the first axial end;an exhaust outlet passage disposed in the interior cavity, the exhaust outlet passage being at least partially defined by an inner surface of the inner wall, the exhaust outlet passage extending along a central longitudinal axis of the body;an exhaust inlet passage disposed in the interior cavity, the exhaust inlet passage being defined by an outer surface of the inner wall and an inner surface of the outer wall, wherein the exhaust inlet passage circumferentially surrounds at least a portion of the exhaust outlet passage;a first substrate disposed in the exhaust inlet passage;a doser for injecting reductants into exhaust gases in the body being engaged to the second axial end of the body, the doser being adapted to inject reductants into the interior cavity of the body so that the reductants are injected in the same axial direction as the direction of flow of exhaust gases through the exhaust outlet passage;an aftertreatment device disposed downstream of the flow device; and a mixer in fluid communication with the exhaust inlet passage, wherein the mixer is adapted to swirl exhaust gases from the exhaust inlet passage about an axis of the mixer. 9. An exhaust treatment system as claimed in claim 8, wherein the axis of the mixer is generally aligned with the central longitudinal axis of the body. 10. An exhaust treatment system as claimed in claim 8, wherein the mixer includes a plate having a plurality of deflector tubes. 11. An exhaust treatment system as claimed in claim 8, wherein the mixer includes a plurality of vents with each vent including a deflector surface that directs exhaust gases in the body such that the exhaust gases generally swirl about the axis of the mixer. 12. An exhaust treatment system as claimed in claim 8, wherein the second axial end of the body includes a corner edge defining a radius. 13. An exhaust treatment system as claimed in claim 8, wherein the second axial end includes an outer peripheral portion and a central portion, wherein the central portion extends inward toward the interior cavity. 14. An exhaust treatment system as claimed in claim 8, wherein an end of the inner wall that is adjacent to the second axial end includes a flange portion. 15. An exhaust treatment system as claimed in claim 8, wherein the inner wall extends from the first axial end to the second axial end. 16. An exhaust treatment system as claimed in claim 15, wherein an axial end portion of the inner wall defines a plurality of openings that extend through an outer surface and an inner surface of the inner wall. 17. A flow device for an exhaust system as claimed in claim 1, wherein the doser is mounted to an end wall at the second axial end of the body.
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