Automotive exhaust aftertreatment system with doser

The invention claimed is: 1. An exhaust aftertreatment system comprising: an exhaust conduit defining an exhaust passageway for receiving a flow of exhaust gases therein, and a first reducing agent mixer coupled fluidly with the exhaust conduit and configured to receive the exhaust gases and inject a reducing agent into the exhaust gases, the reducing agent mixer including: a mixing can defining at least a first portion of the exhaust passageway for receiving the exhaust gases therein, a doser mounted to the mixing can and configured to inject a reducing agent through an injection aperture formed in the mixing can, the doser being configured to heat the reducing agent above a saturated vapor pressure of the reducing agent, and a second reducing agent mixer coupled to the exhaust conduit downstream of the first reducing agent mixer, the second reducing agent mixer including a second mixing can defining at least a second portion of the exhaust passageway for receiving the exhaust gases therein and a secondary doser mounted to the second mixing can, wherein the secondary doser is configured to inject reducing agent through a second injection aperture formed in the second mixing can. 2. The system of claim 1 , further comprising a first selective catalytic reduction unit mounted to the exhaust conduit downstream of the first reducing agent mixer and a second selective catalytic reduction unit mounted to the exhaust conduit downstream of the second reducing agent mixer. 3. The system of claim 2 , wherein the first selective catalytic reduction unit is spaced apart from the first reducing agent mixer and the second selective catalytic reduction unit is positioned immediately downstream of the second reducing agent mixer. 4. The system of claim 2 , wherein the first reducing agent mixer and the first selective catalytic reduction unit are close-coupled relative to a source of the exhaust gases and the second reducing agent mixer. 5. An over the road vehicle, the vehicle comprising: an internal combustion engine configured to produce a flow of exhaust gases that are conducted through an exhaust passageway defined by an exhaust conduit, and an exhaust aftertreatment system comprising a reducing agent tank formed to include an internal region storing a reducing agent therein, a reducing agent pump configured to displace reducing agent from the reducing agent tank, a doser mounted to a mixing can and configured to inject a reducing agent through an injection aperture formed in the mixing can, the doser being configured to heat the reducing agent above a saturated vapor pressure of the reducing agent, a reducing agent sensor configured to detect a parameter associated with the reducing agent within the exhaust aftertreatment system, and a heater control unit in communication with the reducing agent sensor and configured to selectively operate a heater based on signals received from the reducing agent sensor, wherein the heater is fluidly coupled to the exhaust passageway to receive hot exhaust gases that drive heating of the reducing agent resident in a chamber, and wherein the heater control unit is configured to adjust at least one valve to modulate the flow of hot exhaust gases from the exhaust passageway to the heater in order to manipulate operation of the heater. 6. The over-the-road vehicle of claim 5 , wherein the exhaust aftertreatment system includes a pre-heater configured to increase the temperature of reducing agent present in at least one of the reducing agent tank and the reducing agent pump, and wherein the heater control unit is configured to manipulate operation of the pre-heater based on signals received from the reducing agent sensor. 7. The over the road vehicle of claim 5 , wherein the doser is operable to inject the reducing agent through the injection aperture in both a heated mode and a non-heated mode. 8. The over the road vehicle of claim 7 , wherein the doser is configured to change between the heated mode and the non-heated mode based on engine or aftertreament system parameters. 9. The over the road vehicle of claim 8 , wherein the engine or aftertreatment parameters includes at least one of exhaust mass flowrate, exhaust temperature, engine revolutions per minute, and engine load. 10. The over the road vehicle of claim 7 , wherein the doser includes a cooling system configured to selectively cool the temperature of components included in the doser. 11. The over the road vehicle of claim 10 , wherein the doser further includes (iv) a cooling system configured to selectively cool the temperature of components included in the doser, the cooling system including at least one of a first cooler coupled to an outer surface of a doser inlet and aligned axially with the orifice plate, a second cooler coupled to a doser body, and a third cooler coupled to a doser outlet and aligned axially with a pressure-activated valve.