Dosing and mixing arrangement for use in exhaust aftertreatment

What is claimed is: 1. An exhaust treatment system comprising: an exhaust conduit including a linear section defining an inner circumferential surface; a first mixing arrangement defining a first mixing region disposed within the linear section of the exhaust conduit and at which exhaust is swirled in a first swirl direction, the first mixing arrangement including a first plurality of louvers facing in a first circumferential direction; a second mixing arrangement defining a second mixing region disposed within the linear section of the exhaust conduit and at which exhaust is swirled in a second swirl direction that is opposite the first swirl direction, the second mixing arrangement including a second plurality of louvers facing in a second circumferential direction that is opposite the first circumferential direction, the first and second pluralities of louvers being carried on a common mixing body, the second mixing region being disposed downstream from the first mixing region; a restrictor disposed within the linear section of the exhaust conduit and contacting the inner circumferential surface of the exhaust conduit at a contact location downstream of the second mixing region, the inner circumferential surface having a first internal diameter at the contact location, the restrictor separating the exhaust conduit into a first section upstream of the contact location and a second section downstream of the contact location, the restrictor providing a restricted flow path between the first and second sections of the exhaust conduit, the restricted flow path being open along a central axis of the exhaust conduit, the restricted flow path having a second internal diameter at an entrance to the restricted flow path that is smaller than the first internal diameter; and a doser mounting location disposed along the exhaust conduit, the doser mounting location being configured to receive a doser. 2. The exhaust treatment system of claim 1 , wherein the first plurality of louvers extend over less than a full circumference of the first mixing region. 3. The exhaust treatment system of claim 1 , wherein the second plurality of louvers extend over a full circumference of the second mixing region. 4. The exhaust treatment system of claim 1 , wherein the doser mounting location is upstream of the second mixing arrangement. 5. The exhaust treatment system of claim 4 , wherein the doser mounting location is upstream of the first mixing arrangement. 6. The exhaust treatment system of claim 4 , wherein the doser mounting location is upstream of the entrance to the restricted flow path. 7. The exhaust treatment system of claim 1 , wherein the restrictor has a first entrance disposed a first radial distance from the circumferential surface of the exhaust conduit and has a second entrance disposed a second radial distance from the circumferential surface of the exhaust conduit, the second radial distance being different from the first radial distance. 8. The exhaust treatment system of claim 7 , wherein the second entrance is disposed at a different axial location along the exhaust conduit than the first entrance. 9. The exhaust treatment system of claim 7 , wherein the first entrance is disposed at the first mixing region and the second entrance is disposed at the second mixing region. 10. The exhaust treatment system of claim 1 , wherein the doser mounting location is oriented so that any doser mounted at the doser mounting location injects reactant along a doser axis. 11. The exhaust treatment system of claim 10 , wherein the doser axis extends towards the first mixing region. 12. The exhaust treatment system of claim 11 , wherein the doser axis is angled relative to the central axis of the exhaust conduit. 13. The exhaust treatment system of claim 10 , further comprising an impingement surface aligned with the doser axis, the impingement surface restricting but not preventing reactant from passing through the impingement surface. 14. The exhaust treatment system of claim 13 , wherein the impingement surface is disposed upstream of the second mixing arrangement. 15. The exhaust treatment system of claim 14 , wherein at least a portion of the impingement surface overlaps at least a portion of the first mixing arrangement. 16. The exhaust treatment system of claim 14 , wherein at least a portion of the impingement surface is disposed upstream of the first mixing arrangement. 17. The exhaust treatment system of claim 16 , wherein the impingement surface is an upstream end face of a wire mesh component. 18. An exhaust treatment system comprising: an exhaust conduit defining an inner circumferential surface having a first internal diameter; a first mixing arrangement defining a first mixing region disposed within the exhaust conduit and at which exhaust is swirled in a first swirl direction; a second mixing arrangement defining a second mixing region disposed within the exhaust conduit and at which exhaust is swirled in a second swirl direction that is opposite the first swirl direction, the second mixing region being disposed downstream from the first mixing region; a restrictor disposed within the exhaust conduit and contacting the inner circumferential surface of the exhaust conduit at a contact location downstream of the second mixing region, the restrictor separating the exhaust conduit into a first section upstream of the contact location and a second section downstream of the contact location, the restrictor providing a restricted flow path between the first and second sections of the exhaust conduit, the restricted flow path being open along a central axis of the exhaust conduit, the restricted flow path having a second internal diameter at an entrance to the restricted flow path that is smaller than the first internal diameter; a doser mounting location disposed along the exhaust conduit, the doser mounting location being configured to receive a doser, wherein the doser mounting location is oriented so that any doser mounted at the doser mounting location injects reactant along a doser axis; an impingement surface aligned with the doser axis, the impingement surface restricting but not preventing reactant from passing through the impingement surface, the impingement surface being disposed upstream of the second mixing arrangement, at least a portion of the impingement surface being disposed upstream of the first mixing arrangement, and the impingement surface being an upstream end face of a wire mesh component. 19. An exhaust treatment system comprising: an exhaust conduit including a linear section defining an inner circumferential surface; a first mixing arrangement defining a first mixing region disposed within the linear section of the exhaust conduit and at which exhaust is swirled in a first swirl direction, wherein the first mixing arrangement includes a first plurality of louvers facing in a first circumferential direction, wherein the first plurality of louvers extend over less than a full circumference of the first mixing region; a second mixing arrangement defining a second mixing region disposed within the linear section of the exhaust conduit and at which exhaust is swirled in a second swirl direction that is opposite the first swirl direction, the second mixing region being disposed downstream from the first mixing region; a restrictor disposed within the linear section of the exhaust conduit and contacting the inner circumferential surface of the exhaust conduit at a contact location downstream of the second mixing region, the inner