An exhaust treatment component including a mixing assembly located within a housing. The mixing assembly includes a decomposition tube having a first end and a second end, the first end being configured to receive the exhaust from the inlet and being configured to receive a reagent exhaust treatment
An exhaust treatment component including a mixing assembly located within a housing. The mixing assembly includes a decomposition tube having a first end and a second end, the first end being configured to receive the exhaust from the inlet and being configured to receive a reagent exhaust treatment fluid; a flow reversing device disposed proximate the second end, the flow reversing device configured to direct a mixture of the exhaust and reagent exhaust treatment fluid as the mixture exits the second end of the decomposition tube in a direction back toward the first end, the flow reversing device including a plurality of deflecting members for swirling and intermixing the exhaust and reagent exhaust treatment fluid; and a swirl arrester device configured to eliminate the swirling of the exhaust and reagent exhaust treatment fluid after exiting the flow reversing device.
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1. An exhaust treatment component for treating an engine exhaust, comprising: a housing including an inlet and an outlet; anda mixing assembly located within the housing between the inlet and the outlet, the mixing assembly including: a decomposition tube having a first end and a second end, the fir
1. An exhaust treatment component for treating an engine exhaust, comprising: a housing including an inlet and an outlet; anda mixing assembly located within the housing between the inlet and the outlet, the mixing assembly including: a decomposition tube having a first end and a second end, the first end being configured to receive the exhaust from the inlet and being configured to receive a reagent exhaust treatment fluid;a flow reversing device disposed proximate the second end, the flow reversing device configured to direct a mixture of the exhaust and reagent exhaust treatment fluid as the mixture exits the second end of the decomposition tube in a direction back toward the first end, the flow reversing device including a plurality of deflecting members for swirling and intermixing the exhaust and reagent exhaust treatment fluid; anda swirl arrester device configured to reduce the swirling of the exhaust and reagent exhaust treatment fluid after exiting the flow reversing device. 2. The exhaust treatment component of claim 1, wherein the swirl arrester device including cylindrical ring having a plurality of radially inwardly extending blade members. 3. The exhaust treatment component of claim 2, wherein the blade members are punched from the cylindrical ring. 4. The exhaust treatment component of claim 2, wherein the blade members are angled relative to the cylindrical ring to counteract the swirling generated by the deflection members. 5. The exhaust treatment component of claim 2, wherein a width of the blade members is variable along a length thereof. 6. The exhaust treatment component of claim 2, wherein the blade members are helically twisted relative to the cylindrical ring to counteract the swirling generated by the deflection members. 7. The exhaust treatment component of claim 6, wherein the twist angle of the blade members is variable along a length thereof. 8. The exhaust treatment component of claim 2, wherein the blade members are coupled to the flow reversing device. 9. The exhaust treatment component of claim 2, wherein the blade members are helically twisted relative to the interior surface to counteract the swirling generated by the deflection members. 10. The exhaust treatment component of claim 1, wherein the swirl arrester device includes a plurality of blade members directly coupled to an interior surface of the housing that extend radially inwardly from the interior surface. 11. The exhaust treatment component of claim 10, wherein the blade members are angled relative to the interior surface to counteract the swirling generated by the deflection members. 12. The exhaust treatment component of claim 1, wherein the plurality of deflecting members are connected to a mounting ring, the mounting ring being coupled to the second end of the decomposition tube. 13. The exhaust treatment component of claim 12, wherein the deflecting members are helically curved. 14. An exhaust treatment component for treating an exhaust produced by an engine, comprising: a housing having an inlet and an outlet;a dosing module for dosing a reagent exhaust treatment fluid into the exhaust, the dosing module secured to the housing; anda mixing device located within the housing and positioned downstream from the dosing module, the mixing device including: a shell;a decomposition tube having a first end extending from the shell and directly communicating with the dosing module, and a second end positioned within the shell;a flow reversing device disposed proximate the second end, the flow reversing device directing the exhaust and reagent exhaust treatment fluid in predetermined directions into the shell;a support plate fixed to an interior surface of the housing upstream from the first end of the decomposition tube, the support plate defining an aperture for receipt of the decomposition tube and a plurality of through-holes for allowing the exhaust to flow therethrough before entering the first end of the decomposition tube; anda swirl arrester device configured to reduce the swirling of the exhaust and reagent exhaust treatment fluid, wherein a direction of the exhaust flow firstly reverses after entering the first end of the decomposition tube; andthe flow reversing device secondly reverses the direction of the exhaust flow back towards the first end of the decomposition tube. 15. The exhaust treatment component of claim 14, wherein the swirl arrester device is located within the first end of the decomposition tube. 16. The exhaust treatment component of claim 14, wherein the swirl arrester device is located downstream from the flow reversing device. 17. The exhaust treatment component of claim 14, wherein the swirl arrester device is located within the outlet of the housing. 18. The exhaust treatment component of claim 14, further comprising a cup-shaped nose fixed to an outer surface of the flow reversing device. 19. The exhaust treatment system of claim 14, wherein the swirl arrester device including cylindrical ring having a plurality of radially inwardly extending blade members. 20. The exhaust treatment system of claim 19, wherein the blade members are punched from the cylindrical ring. 21. The exhaust treatment system of claim 19, wherein the blade members are angled relative to the cylindrical ring to counteract the swirling generated by the deflection members. 22. The exhaust treatment system of claim 19, wherein the blade members are helically twisted relative to the cylindrical ring to counteract the swirling generated by the deflection members. 23. The exhaust treatment system of claim 19, wherein the blade members are coupled to the shell. 24. The exhaust treatment system of claim 14, wherein the swirl arrester device includes a plurality of blade members directly coupled to an interior surface of the shell that extend radially inwardly from the interior surface. 25. The exhaust treatment system of claim 24, wherein the blade members are helically twisted relative to the interior surface to counteract the swirling generated by the deflection members.
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