Exhaust aftertreatment device

What is claimed is: 1. An exhaust treatment device for treating exhaust comprising: a main body defining an interior, the main body interior extending along a longitudinal axis from a first closed end to a second end, the main body defining a circumferential wall extending between the first closed end and the second end, the circumferential wall defining an inlet opening towards the first closed end, the main body also defining an outlet; an inlet arrangement disposed at the inlet opening, the inlet arrangement defining an inlet channel leading to the interior of the main body, the inlet arrangement being configured to orient the inlet channel at an angle to the main body to promote swirling of the exhaust; an aftertreatment substrate disposed within the interior of the main body between the inlet opening and the outlet, the aftertreatment substrate being spaced from the first closed end to define a mixing region within the main body interior; a restrictor arrangement disposed within the interior of the main body between the first closed end and the aftertreatment substrate, the restrictor arrangement separating the mixing region into a first chamber and a second chamber, the restrictor arrangement defining a restricted passageway between the first and second chambers, the restricted passageway extending into the first chamber towards the first closed end so that exhaust entering the main body interior from the inlet channel is swirled around the restricted passageway before entering the restricted passageway and passing to the second chamber; and a dosing arrangement configured to receive an injector to spray reactant into the exhaust so that the reactant mixes with the exhaust in the first chamber, the dosing arrangement being configured so that an injection axis of any injector mounted to the dosing arrangement is not coaxial with the longitudinal axis of the main body. 2. The exhaust treatment device of claim 1 , wherein the first closed end is defined by an interior plate retaining insulation disposed within the main body. 3. The exhaust treatment device of claim 1 , wherein the restriction arrangement includes a baffle plate and a tube extending from the baffle plate towards the first closed end, the restricted passageway being defined through the tube and through an opening in the baffle plate. 4. The exhaust treatment device of claim 1 , wherein a gap between the first closed end and the tube is at least about 0.06 times a cross-dimension of the main body interior. 5. The exhaust treatment device of claim 1 , wherein a gap between the first closed end and the tube is no more than about 0.3 times the cross-dimension of the main body interior. 6. The exhaust treatment device of claim 1 , wherein the restricted passageway has a cross-dimension that is less than half of a cross-dimension of the main body interior. 7. The exhaust treatment device of claim 6 , wherein the cross-dimension of the restricted passageway ranges from about 0.3 to about 0.45 of the cross-dimension of the main body interior. 8. The exhaust treatment device of claim 1 , further comprising a directional flow expansion device disposed in the second chamber of the mixing region. 9. The exhaust treatment device of claim 8 , wherein a spacing between the first closed end and the aftertreatment substrate is less than 1.2 times the cross-dimension of the main body interior. 10. The exhaust treatment device of claim 9 , wherein the spacing between the first closed end and the aftertreatment substrate ranges from about 0.7 to about 1.1 times the cross-dimension of the main body interior. 11. The exhaust treatment device of claim 8 , wherein the directional flow expansion device includes a baffle plate defining a plurality of openings. 12. The exhaust treatment device of claim 11 , wherein the baffle plate defines a solid region that aligns with the restricted passageway between the first and second chambers. 13. The exhaust treatment device of claim 11 , wherein a combined open area of the plurality of openings defined by the baffle plate is at least as large as a transverse area of the restricted passageway. 14. The exhaust treatment device of claim 13 , wherein the combined open area of the plurality of openings defined by the baffle plate is no larger than the three times the transverse area of the restricted passageway. 15. The exhaust treatment device of claim 1 , further comprising a deflector disposed in the first chamber adjacent the inlet opening, the deflector plate being disposed and configured to direct swirling exhaust flow away from the inlet opening. 16. The exhaust treatment device of claim 15 , wherein the deflector is formed by a portion of the inlet arrangement extending into the first chamber. 17. The exhaust treatment device of claim 1 , wherein the dosing arrangement is disposed at the inlet arrangement outside the main body. 18. The exhaust treatment device of claim 17 , wherein the dosing arrangement is oriented to inject the reactant through the inlet opening and into the first chamber. 19. The exhaust treatment device of claim 18 , wherein the dosing arrangement is oriented to mitigate the reactant hitting an exterior of the restricted passageway. 20. The exhaust treatment device of claim 17 , wherein the dosing arrangement is disposed upstream of the inlet opening and is oriented so that reactant sprayed by any injector mounted to the dosing arrangement is not sprayed directly into the inlet opening. 21. The exhaust treatment device of claim 1 , further comprising a dispersing arrangement disposed so that exhaust flowing from the inlet arrangement to the mixing region passes through the dispersing arrangement. 22. The exhaust treatment device of claim 1 , further comprising a drip plate disposed within the mixing region so as to receive and heat droplets of reactant to enhance evaporation of the reactant.