Integrated reductant mixer and heater apparatus for exhaust treatment systems

What is claimed is: 1 . An integrated reductant mixer and heater apparatus for an exhaust treatment system, comprising: a housing having a housing wall that defines a housing interior for an exhaust stream to flow therethrough in an axial flow direction coaxial with the housing interior; a reductant injector coupled to the housing and configured to deliver a spray of reductant into the exhaust stream; at least one mixing fin disposed within the housing interior downstream of the reductant injector, the mixing fin having a primary deflection surface orientated parallel with, or at an acute angle relative to, the axial flow direction; a first heater element within the housing interior and extending within a first plane intersecting the axial flow direction proximate the primary deflection surface of the mixing fin; and a second heater element within the housing interior and extending within a second plane intersecting the axial flow direction proximate the primary deflection surface of the mixing fin and downstream from the first heater element. 2 . The integrated reductant mixer and heater apparatus of claim 1 , wherein at least one of the first heater element and the second heater element is completely upstream of the at least one mixing fin. 3 . The integrated reductant mixer and heater apparatus of claim 1 , wherein each of the first heater element and the second heater element is completely upstream of the at least one mixing fin. 4 . The integrated reductant mixer and heater apparatus of claim 1 , wherein the at least one mixing fin has an axial position to radially overlap the second heater element. 5 . The integrated reductant mixer and heater apparatus of claim 1 , wherein the at least one mixing fin has an axial position to radially overlap the first heater element and the second heater element. 6 . The integrated reductant mixer and heater apparatus of claim 1 , wherein each of the first heater element and the second heater element is an electric heater element. 7 . The integrated reductant mixer and heater apparatus of claim 1 , wherein each of the first heater element and the second heater element is formed with a wave shape. 8 . The integrated reductant mixer and heater apparatus of claim 7 , wherein the first heater element and the second heater element are radially offset relative to one another along the axial flow direction. 9 . The integrated reductant mixer and heater apparatus of claim 1 , wherein each of the first heater element and the second heater element is formed with a spiral shape. 10 . The integrated reductant mixer and heater apparatus of claim 9 , wherein the first heater element and the second heater element are radially offset relative to one another along the axial flow direction. 11 . The integrated reductant mixer and heater apparatus of claim 1 , wherein the first heater element and the second heater element collectively extend across the axial flow direction to effectively heat substantially all of the exhaust stream. 12 . The integrated reductant mixer and heater apparatus of claim 1 , further comprising a controller configured to modulate temperatures the first heater element and the second heater element. 13 . An exhaust treatment system for treating exhaust from an engine, comprising: an inlet tube for receiving the exhaust from the engine; a particulate filter fluidly coupled to receive the exhaust from the inlet tube; a selective catalytic reduction system coupled to receive the exhaust from the particulate filter, wherein the selective catalytic reduction system comprises: an integrated reductant mixer and heater housing having a housing wall that defines a housing interior for an exhaust stream to flow therethrough in an axial flow direction coaxial with the housing interior; a reductant injector coupled to the housing and configured to deliver a spray of reductant into the exhaust stream; at least one mixing fin disposed within the housing interior downstream of the reductant injector, the mixing fin having a primary deflection surface orientated parallel with, or at an acute angle relative to, the axial flow direction; a first heater element within the housing interior and extending within a first plane intersecting the axial flow direction proximate the primary deflection surface of the mixing fin; and a second heater element within the housing interior and extending within a second plane intersecting the axial flow direction proximate the primary deflection surface of the mixing fin and downstream from the first heater element; and a catalyst device fluidly coupled to receive the mixture of the reductant and the exhaust from the integrated reductant mixer and heater housing and configured to reduce NOx in the exhaust with the reductant; and an outlet tube coupled to receive the exhaust from the selective catalytic reduction system. 14 . The exhaust treatment system of claim 13 , wherein at least one of the first heater element and the second heater element is completely upstream of the at least one mixing fin. 15 . The exhaust treatment system of claim 13 , wherein the at least one mixing fin has an axial position to radially overlap the second heater element. 16 . The exhaust treatment system of claim 13 , wherein the at least one mixing fin has an axial position to radially overlap the first heater element and the second heater element. 17 . The exhaust treatment system of claim 13 , wherein each of the first heater element and the second heater element is an electric heater element. 18 . The exhaust treatment system of claim 13 , wherein each of the first heater element and the second heater element is formed with a wave shape. 19 . The exhaust treatment system of claim 13 , wherein each of the first heater element and the second heater element is formed with a spiral shape. 20 . The exhaust treatment system of claim 13 , wherein the first heater element and the second heater element collectively extend across the axial flow direction to effectively heat substantially all of the exhaust stream.