Dosing and mixing arrangement for use in exhaust aftertreatment

What is claimed is: 1. A dosing and mixing arrangement comprising: an exhaust conduit defining a central axis; a mixing conduit positioned within the exhaust conduit, the mixing conduit extending along the central axis from an upstream end to a downstream end; a disperser for dispersing reactants disposed at the upstream end of the mixing conduit, the disperser including a first region and a second region that is less restrictive than the first region, the first region extending across the upstream end of the mixing conduit; and a bypass for allowing exhaust to bypass the upstream end of the mixing conduit and to enter the mixing conduit downstream of the disperser, the second region of the disperser at least partially restricting access to the bypass; an interior of the mixing conduit being devoid of structure in longitudinal alignment with an upstream face of the disperser. 2. The dosing and mixing arrangement of claim 1 , wherein the bypass is defined between the mixing conduit and the exhaust conduit. 3. The dosing and mixing arrangement of claim 1 , wherein the bypass includes an annular passage. 4. The dosing and mixing arrangement of claim 1 , wherein the mixing conduit includes a mixer to impart turbulence to exhaust flowing into the mixing conduit from the bypass. 5. The dosing and mixing arrangement of claim 1 , wherein the disperser includes a mesh. 6. The dosing and mixing arrangement of claim 5 , wherein the mesh includes metal wires having transverse cross-dimensions of no more than 0.01 inches. 7. The dosing and mixing arrangement of claim 1 , wherein the second region extends at least partially across an annular opening that extends between a circumference of the first region and an inner surface of the exhaust conduit. 8. The dosing and mixing arrangement of claim 7 , wherein the second region at least partially restricts access to the entire bypass. 9. The dosing and mixing arrangement of claim 1 , wherein the first region includes a first mesh and the second region includes a second mesh, the second mesh being less restrictive to flow than the first mesh, the second mesh extending at least partially across an annular opening that extends between a circumference of the first region and an inner surface of the exhaust conduit. 10. The dosing and mixing arrangement of claim 9 , wherein the second mesh extends across the first region and fully across the annular opening. 11. The dosing and mixing arrangement of claim 1 , wherein the mixing conduit defines a plurality of apertures therethrough at a location downstream of the disperser, the apertures being configured to allow exhaust to bypass the upstream end of the mixing conduit. 12. The dosing and mixing arrangement of claim 11 , wherein the plurality of apertures includes a first set of apertures at a first axial location along the mixing conduit. 13. The dosing and mixing arrangement of claim 12 , wherein the first set of apertures direct at least some exhaust from the bypass into the mixing conduit to carry droplets of the reactants away from an inner surface of the mixing conduit at one side of the mixing conduit. 14. The dosing and mixing arrangement of claim 12 , wherein the plurality of apertures includes a second set of apertures at a second axial location downstream of the first axial location. 15. The dosing and mixing arrangement of claim 14 , wherein the first set of apertures extends around less than a circumference of the mixing conduit, and wherein the second set of apertures extends around the circumference of the mixing conduit. 16. The dosing and mixing arrangement of claim 14 , wherein a first plurality of louvers are disposed at the first set of apertures and a second plurality of louvers are disposed at the second set of apertures, the second plurality of louvers having a different circumferential component than the first plurality of louvers. 17. A dosing and mixing arrangement comprising: an exhaust conduit defining a central axis; a mixing conduit positioned within the exhaust conduit, the mixing conduit extending along the central axis from an upstream end to a downstream end; a disperser for dispersing reactants disposed at the upstream end of the mixing conduit; and a bypass for allowing exhaust to bypass the upstream end of the mixing conduit and to enter the mixing conduit downstream of the disperser; an interior of the mixing conduit being devoid of structure in longitudinal alignment with an upstream face of the disperser; wherein the mixing conduit defines a plurality of apertures therethrough at a location downstream of the disperser, the apertures being configured to allow exhaust to bypass the upstream end of the mixing conduit, the plurality of apertures including a first set of apertures at a first axial location along the mixing conduit and a second set of apertures at a second axial location downstream of the first axial location, the first set of apertures extending around less than a circumference of the mixing conduit, and the second set of apertures extending around the circumference of the mixing conduit. 18. The dosing and mixing arrangement of claim 17 , wherein a first plurality of louvers are disposed at the first set of apertures and a second plurality of louvers are disposed at the second set of apertures, the second plurality of louvers having a different circumferential component than the first plurality of louvers. 19. The dosing and mixing arrangement of claim 17 , wherein the bypass includes an annular passage. 20. The dosing and mixing arrangement of claim 17 , wherein the disperser includes a mesh.