Cold in-place recycling with in-line heater for asphalt cement

What is claimed is: 1. A CIR train that is adapted to traverse a roadway of asphalt pavement in order to recycle and repair the asphalt paving material comprising the asphalt pavement, said CIR train comprising: (a) a milling machine for milling the asphalt paving material and removing said asphalt paving material from the roadway; (b) a vehicle comprising an asphalt cement supply tank; (c) a mechanism for dispensing asphalt cement onto asphalt paving material that has been removed from the roadway; (d) a heater that is in fluid communication with the asphalt cement supply tank and the mechanism for dispensing asphalt cement on the asphalt paving material that has been removed from the roadway, said heater: (i) being adapted to heat the asphalt cement from the asphalt cement supply tank prior to said asphalt cement being dispensed on the asphalt paving material that has been removed from the roadway; (ii) comprising a burner assembly that burns fuel in air to create hot gases of combustion; (iii) including a first heating chamber that includes a plurality of fluid passages through which asphalt cement may pass, which fluid passages are contacted by the hot gases of combustion from the burner assembly; (iv) including a second heating chamber that is disposed around the first heating chamber. 2. The CIR train of claim 1 wherein the mechanism for dispensing asphalt cement comprises an asphalt cement spray assembly that is mounted within the milling drum housing of a CIR-modified milling machine. 3. The CIR train of claim 1 wherein the mechanism for dispensing asphalt cement comprises dispensing the asphalt cement into a pugmill of a cold recycler machine. 4. The CIR train of claim 1 wherein the asphalt cement supply tank is mounted on an asphalt cement supply truck. 5. The CIR train of claim 1 wherein the heater is mounted between the milling machine and the asphalt cement supply tank. 6. The CIR train of claim 1 wherein the heater comprises: (a) an outlet for heated asphalt cement; (b) a temperature sensor that is located near the outlet for heated asphalt cement; (c) a temperature control mechanism that is adapted to control the rate of feed of the fuel to the burner assembly based upon the temperature of asphalt cement obtained by the temperature sensor. 7. The CIR train of claim 1 wherein the heater is adapted to produce at least about 300,000 BTUs per hour. 8. The CIR train of claim 1 wherein the heater is adapted to provide continuous-flow heating of the asphalt cement coming from the asphalt cement supply tank. 9. The CIR train of claim 8 wherein the heater is adapted to heat at least about 30 gallons/minute of asphalt cement so as to raise the temperature of the asphalt cement coming from the asphalt cement supply tank by at least about 30° F. 10. The CIR train of claim 1 wherein: (a) the heater comprises: (i) said first heating chamber; (ii) said second heating chamber; (iii) a heater inlet for asphalt cement; (iv) a heater outlet for asphalt cement; (b) the plurality of fluid passages for asphalt cement comprises: (i) a first coil that is in fluid communication with the heater inlet and is disposed around the periphery of the first heating chamber, said first coil defining a first heating area inside the first coil within the first heating chamber; (ii) a second coil that is in fluid communication with the first coil and the heater outlet and is disposed around the periphery of the second heating chamber, said second coil defining a second heating area inside the second coil within the second heating chamber; (c) wherein the asphalt cement is directed from the heater inlet into the first coil and the second coil to the heater outlet; (d) wherein the first heating chamber is in fluid communication with the second heating chamber; (e) wherein the burner assembly is arranged to direct the hot gases of combustion through the first heating area and the second heating area in order to transfer heat to the asphalt cement in the first coil and the second coil. 11. A CIR train that is adapted to traverse a roadway of asphalt pavement in order to recycle and repair the asphalt paving material comprising the asphalt pavement, said CIR train comprising: (a) a milling machine for milling the asphalt paving material and removing said asphalt paving material from the roadway; (b) a mobile support comprising an asphalt cement supply tank; (c) a mechanism for dispensing asphalt cement onto the asphalt paving material that has been removed from the roadway; (d) a heater that is in fluid communication with the asphalt cement supply tank and the mechanism for dispensing asphalt cement on the asphalt paving material that has been removed from the roadway, said heater being adapted to heat the asphalt cement from the asphalt cement supply tank prior to said asphalt cement being dispensed on the asphalt paving material that has been removed from the roadway, said heater further comprising: (i) a heater inlet for asphalt cement; (ii) a heater outlet for asphalt cement; (iii) a heating chamber that includes a plurality of fluid passages through which asphalt cement may pass, said plurality of fluid passages comprising a first coil that is in fluid communication with the heater inlet through which a first portion of the asphalt cement is directed, and a second coil that is in fluid communication with the heater inlet through which a second portion of the asphalt cement is directed; (iv) a burner assembly that burns fuel in air to create hot gases of combustion and is arranged to direct the hot gases of combustion through the heating chamber in order to transfer heat to the asphalt cement in the first and second coils. 12. A CIR train that is adapted to traverse a roadway of asphalt pavement in order to recycle and repair the asphalt paving material comprising the asphalt pavement, said CIR train comprising: (a) a milling machine for milling the asphalt paving material and removing said asphalt paving material from the roadway; (b) a wheeled chassis comprising an asphalt cement supply tank; (c) a mechanism for dispensing asphalt cement onto asphalt paving material that has been removed from the roadway; (d) a heater that is in fluid communication with the asphalt cement supply tank and the mechanism for dispensing asphalt cement on the asphalt paving material that has been removed from the roadway, said heater being adapted to heat the asphalt cement from the asphalt cement supply tank prior to said asphalt cement being dispensed on the asphalt paving material that has been removed from the roadway, said heater further comprising: (i) a burner assembly that burns fuel in air to create hot gases of combustion; (ii) a heater inlet for asphalt cement; (iii) a heater outlet for asphalt cement; (iv) a heating chamber that includes a fluid passage through which asphalt cement may pass, which fluid passage is contacted by the hot gases of combustion from the burner assembly, said fluid passage for asphalt cement further comprising an inner coil and an intermediate coil, both of which are in fluid communication with the heater inlet and are wrapped around the heating chamber to define a heating area inside the inner coil and the intermediate coil within the heating chamber; (v) wherein the fluid passage for asphalt cement also comprises an outer helical channel which is outside of and in fluid communication with the inner coil and the intermediate coil, and is in fluid communication with the heater outlet; (vi) wherein the asphalt cement is directed from the heater inlet into the inner coil and the intermediate coil and into the outer helical c